Nicolas Engrand, Armelle Nicolas-Robin, Pierre Trouiller, Stéphane Welschbillig
{"title":"神经错乱的标准是什么:意识还是能力?神经元学家的两难选择","authors":"Nicolas Engrand, Armelle Nicolas-Robin, Pierre Trouiller, Stéphane Welschbillig","doi":"10.1186/s13054-024-05098-5","DOIUrl":null,"url":null,"abstract":"<p>Rohaut et al. published the results of a remarkable 12-year evolutionary project, showing a positive association between substantial improvement in consciousness 1 month after brain injury and a favorable outcome (Glasgow Outcome Scale-Extended [GOS-E] score ≥ 4) 1 year later, with an odds ratio of 14.6 [1]. This is a major new finding on neuropronostication, a fundamental issue in neurocritical care.</p><p>The multimodal assessment (MMA) based on seven objective criteria, combined with a critical reading by a panel of experts (the “DoC team”) comprising neuro-intensivists, neurologists, neurophysiologists, neuroradiologists and neuroscientists, allowed for predicting GOS-E score 1–3 at 1 year with 100% accuracy in the group with predicted poor prognosis. Assuming that the aim of the MMA is to give a chance for neurological recovery to every patient with a capacity for recovery, these results are highly effective. This also means that at 1 month after brain injury, when the MMA and DoC team predicted a poor 1-year prognosis, they were right. So, the first important lesson for neuro-intensivists is that they can withhold or even withdraw life-sustaining therapies according to this result, without compromising a significant chance of neurological recovery, sparing the patient 1 year of invasive care and rehabilitation.</p><p>However, only 39% of the group with predicted good prognosis achieved a GOS-E score ≥ 4 (excluding withdrawal of life-sustaining therapies and unknown decisions). Similarly, only 24% of patients in the group with an uncertain prognosis achieved this good result. Therefore, the MMA’s prediction of an uncertain or favorable outcome exposed the patient to the risk of continuing treatment inappropriately, thus leading to a large number of disabilities and dependencies. In other words, there were very few early “good-prognosis patients,” and even after the MMA, 83% of the 277 patients had a GOS-E score < 4. So, although increasing the number of modalities improved accuracy, the MMA still remained not able to reliably detect long-term ability.</p><p>These results raise the question of the goal of neurocritical care.</p><p>Although it is known that all patients ultimately recover wakefulness after severe brain injury [2] and many even recover substantial consciousness [3], some will never regain the ability to interact with their environment. These latter conditions, classified as unresponsive wakefulness syndrome or vegetative state without consciousness, are widely considered failure of care. However, what about a conscious but highly dependent patient with modified Rankin Scale (mRS) score 4 or 5 or GOS-E score 4 or 3? In neurovascular studies, an mRS score of 4 (often even 3) is considered failure. For example, this score is considered an outcome to be avoided in decompressive craniectomy studies [4] (with the exception of the recent Switch study [5]) but considered a success in studies of consciousness recovery [6].</p><p>Also, patients with an mRS score of 4 may have a lower long-term quality of life (QoL) than those with an mRS score of 2 or 3 [7]. However, long-term satisfaction studies remain quite positive, even for patients with an mRS score of 5 and those with locked-in syndrome, for example [8, 9].</p><p>Hence, the neuro-intensivists’ goal of care is sometimes at odds with that of their neurologist and neurosurgeon colleagues, who demand an mRS score of ≤ 2 or 3, and consciousness specialists, who recommend continuing treatments as soon as there is the slightest hope of contact, with a QoL that seems acceptable, or in any case accepted by most patients.</p><p>The great merit of the Rohaut et al. study is to have made the link between lack of early consciousness recovery and remote disability/dependence. Nevertheless, was not the large number of highly dependent patients generated helped by the fact that all clinical and para-clinical examinations included in the MMA processes (with the exception of DTI-MRI) focused on patients’ current state of consciousness? Would not one solution to better target remote GOS-E or mRS scores be to include rehabilitation physicians in the multidisciplinary assessment team as well as geriatricians in the case of older patients?</p><p>In fact, the goal of neurocritical care is even more questionable. Although historically, prognostic studies in intensive care first focused on survival, then on expected disability, they could now focus on the quality-adjusted life years (including both the quality and quantity of life lived) or even satisfaction of the conscious but disabled patient, although more difficult to quantify [8, 10], particularly because of cognitive barriers in patients with aphasia or significant cognitive impairment. Further progress should consist of better predicting a GOS-E or an mRS score and comparing this prognosis with the patient’s advance directives, bearing in mind that advance directives themselves have serious limitations, particularly in the case of acute cerebral injury [11]. Moreover, this question arises not only after a month of intensive neurological care but also, and probably even more sensitive, during the initial care of the brain-injured patient, as Rohaut et al. pointed out in another article [12]. In the case of intracranial hematoma and intraventricular hemorrhage, for example, prognostication needs to be delayed until after the initial treatment to obtain a reliable prediction of future recovery [13].</p><p>By way of summary, there are a few key issues concerning the goal of neurocritical care. First, even if a favorable evaluation at 1 month was statistically associated with better patient autonomy at 1 year, we must bear in mind that specificity remained low, with the risk of inducing “paradoxical unreasonable obstinacy,” contrary to the initial objective of the MMA. Above all, remote QoL and patient satisfaction could be more relevant endpoints of our care. As physicians, we should perhaps be prepared for the person to decide, even if unable to express their will, and for us to become mere executors. This is a societal, ethical, political, financial [12] and even ecological issue, not to mention the QoL and satisfaction of loved ones. Of note, tools such as the Rehabilitation Complexity Scale-Extended [14], now integrated into some European healthcare systems, have been developed to quantify the complexity of a patient’s rehabilitation needs, considering the costs and sustainability.</p><p>In any case, in the current situation, in most centers, the neuro-intensivist still cannot avoid assessing whether the outcome is acceptable or not at the time the question arises. Finally, considering this type of publication, will we still have the right to suggest withholding or withdrawing life-sustaining therapies without having to go through this type of MMA, (independent of clinical ethics consultations)? The need to develop early MMA platforms and remote consultation systems after neurological critical care will undoubtedly become crucial.</p><p>No datasets were generated or analysed during the current study.</p><dl><dt style=\"min-width:50px;\"><dfn>GOSE:</dfn></dt><dd>\n<p>Glasgow outcome scale-extended score</p>\n</dd><dt style=\"min-width:50px;\"><dfn>MMA:</dfn></dt><dd>\n<p>Multimodal assessment</p>\n</dd><dt style=\"min-width:50px;\"><dfn>mRS:</dfn></dt><dd>\n<p>Modified Rankin scale</p>\n</dd><dt style=\"min-width:50px;\"><dfn>QoL:</dfn></dt><dd>\n<p>Quality of life</p>\n</dd></dl><ol data-track-component=\"outbound reference\" data-track-context=\"references section\"><li data-counter=\"1.\"><p>Rohaut B, Calligaris C, Hermann B, Perez P, Faugeras F, Raimondo F, et al. Multimodal assessment improves neuroprognosis performance in clinically unresponsive critical-care patients with brain injury. 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Disabil Rehabil. 2012;34:715–20. https://doi.org/10.3109/09638288.2011.615880.</p><p>Article PubMed Google Scholar </p></li></ol><p>Download references<svg aria-hidden=\"true\" focusable=\"false\" height=\"16\" role=\"img\" width=\"16\"><use xlink:href=\"#icon-eds-i-download-medium\" xmlns:xlink=\"http://www.w3.org/1999/xlink\"></use></svg></p><p>Mrs Laura SMALES for English proofreading</p><h3>Authors and Affiliations</h3><ol><li><p>Neuro-Intensive Care Unit, Rothschild Hospital Foundation, 29 Rue Manin, 75019, Paris, France</p><p>Nicolas Engrand, Armelle Nicolas-Robin, Pierre Trouiller & Stéphane Welschbillig</p></li></ol><span>Authors</span><ol><li><span>Nicolas Engrand</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li><li><span>Armelle Nicolas-Robin</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li><li><span>Pierre Trouiller</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li><li><span>Stéphane Welschbillig</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li></ol><h3>Contributions</h3><p>NE, ANR, PT and SW participated in the reflection work, drafting and revision of the manuscript.</p><h3>Corresponding author</h3><p>Correspondence to Nicolas Engrand.</p><h3>Ethics approval and consent to participate</h3>\n<p>Not applicable.</p>\n<h3>Consent for publication</h3>\n<p>Not applicable.</p>\n<h3>Competing interests</h3>\n<p>The authors declare that they have no competing interests</p><h3>Publisher's Note</h3><p>Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.</p><p><b>Open Access</b> This article is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License, which permits any non-commercial use, sharing, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if you modified the licensed material. You do not have permission under this licence to share adapted material derived from this article or parts of it. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by-nc-nd/4.0/.</p>\n<p>Reprints and permissions</p><img alt=\"Check for updates. 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What criteria for neuropronostication: consciousness or ability? The neuro-intensivist’s dilemma. <i>Crit Care</i> <b>28</b>, 322 (2024). https://doi.org/10.1186/s13054-024-05098-5</p><p>Download citation<svg aria-hidden=\"true\" focusable=\"false\" height=\"16\" role=\"img\" width=\"16\"><use xlink:href=\"#icon-eds-i-download-medium\" xmlns:xlink=\"http://www.w3.org/1999/xlink\"></use></svg></p><ul data-test=\"publication-history\"><li><p>Received<span>: </span><span><time datetime=\"2024-07-31\">31 July 2024</time></span></p></li><li><p>Accepted<span>: </span><span><time datetime=\"2024-09-14\">14 September 2024</time></span></p></li><li><p>Published<span>: </span><span><time datetime=\"2024-10-03\">03 October 2024</time></span></p></li><li><p>DOI</abbr><span>: </span><span>https://doi.org/10.1186/s13054-024-05098-5</span></p></li></ul><h3>Share this article</h3><p>Anyone you share the following link with will be able to read this content:</p><button data-track=\"click\" data-track-action=\"get shareable link\" data-track-external=\"\" data-track-label=\"button\" type=\"button\">Get shareable link</button><p>Sorry, a shareable link is not currently available for this article.</p><p data-track=\"click\" data-track-action=\"select share url\" data-track-label=\"button\"></p><button data-track=\"click\" data-track-action=\"copy share url\" data-track-external=\"\" data-track-label=\"button\" type=\"button\">Copy to clipboard</button><p> Provided by the Springer Nature SharedIt content-sharing initiative </p>","PeriodicalId":10811,"journal":{"name":"Critical Care","volume":"191 1","pages":""},"PeriodicalIF":8.8000,"publicationDate":"2024-10-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"What criteria for neuropronostication: consciousness or ability? The neuro-intensivist’s dilemma\",\"authors\":\"Nicolas Engrand, Armelle Nicolas-Robin, Pierre Trouiller, Stéphane Welschbillig\",\"doi\":\"10.1186/s13054-024-05098-5\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Rohaut et al. published the results of a remarkable 12-year evolutionary project, showing a positive association between substantial improvement in consciousness 1 month after brain injury and a favorable outcome (Glasgow Outcome Scale-Extended [GOS-E] score ≥ 4) 1 year later, with an odds ratio of 14.6 [1]. This is a major new finding on neuropronostication, a fundamental issue in neurocritical care.</p><p>The multimodal assessment (MMA) based on seven objective criteria, combined with a critical reading by a panel of experts (the “DoC team”) comprising neuro-intensivists, neurologists, neurophysiologists, neuroradiologists and neuroscientists, allowed for predicting GOS-E score 1–3 at 1 year with 100% accuracy in the group with predicted poor prognosis. Assuming that the aim of the MMA is to give a chance for neurological recovery to every patient with a capacity for recovery, these results are highly effective. This also means that at 1 month after brain injury, when the MMA and DoC team predicted a poor 1-year prognosis, they were right. So, the first important lesson for neuro-intensivists is that they can withhold or even withdraw life-sustaining therapies according to this result, without compromising a significant chance of neurological recovery, sparing the patient 1 year of invasive care and rehabilitation.</p><p>However, only 39% of the group with predicted good prognosis achieved a GOS-E score ≥ 4 (excluding withdrawal of life-sustaining therapies and unknown decisions). Similarly, only 24% of patients in the group with an uncertain prognosis achieved this good result. Therefore, the MMA’s prediction of an uncertain or favorable outcome exposed the patient to the risk of continuing treatment inappropriately, thus leading to a large number of disabilities and dependencies. In other words, there were very few early “good-prognosis patients,” and even after the MMA, 83% of the 277 patients had a GOS-E score < 4. So, although increasing the number of modalities improved accuracy, the MMA still remained not able to reliably detect long-term ability.</p><p>These results raise the question of the goal of neurocritical care.</p><p>Although it is known that all patients ultimately recover wakefulness after severe brain injury [2] and many even recover substantial consciousness [3], some will never regain the ability to interact with their environment. These latter conditions, classified as unresponsive wakefulness syndrome or vegetative state without consciousness, are widely considered failure of care. However, what about a conscious but highly dependent patient with modified Rankin Scale (mRS) score 4 or 5 or GOS-E score 4 or 3? In neurovascular studies, an mRS score of 4 (often even 3) is considered failure. For example, this score is considered an outcome to be avoided in decompressive craniectomy studies [4] (with the exception of the recent Switch study [5]) but considered a success in studies of consciousness recovery [6].</p><p>Also, patients with an mRS score of 4 may have a lower long-term quality of life (QoL) than those with an mRS score of 2 or 3 [7]. However, long-term satisfaction studies remain quite positive, even for patients with an mRS score of 5 and those with locked-in syndrome, for example [8, 9].</p><p>Hence, the neuro-intensivists’ goal of care is sometimes at odds with that of their neurologist and neurosurgeon colleagues, who demand an mRS score of ≤ 2 or 3, and consciousness specialists, who recommend continuing treatments as soon as there is the slightest hope of contact, with a QoL that seems acceptable, or in any case accepted by most patients.</p><p>The great merit of the Rohaut et al. study is to have made the link between lack of early consciousness recovery and remote disability/dependence. Nevertheless, was not the large number of highly dependent patients generated helped by the fact that all clinical and para-clinical examinations included in the MMA processes (with the exception of DTI-MRI) focused on patients’ current state of consciousness? Would not one solution to better target remote GOS-E or mRS scores be to include rehabilitation physicians in the multidisciplinary assessment team as well as geriatricians in the case of older patients?</p><p>In fact, the goal of neurocritical care is even more questionable. Although historically, prognostic studies in intensive care first focused on survival, then on expected disability, they could now focus on the quality-adjusted life years (including both the quality and quantity of life lived) or even satisfaction of the conscious but disabled patient, although more difficult to quantify [8, 10], particularly because of cognitive barriers in patients with aphasia or significant cognitive impairment. Further progress should consist of better predicting a GOS-E or an mRS score and comparing this prognosis with the patient’s advance directives, bearing in mind that advance directives themselves have serious limitations, particularly in the case of acute cerebral injury [11]. Moreover, this question arises not only after a month of intensive neurological care but also, and probably even more sensitive, during the initial care of the brain-injured patient, as Rohaut et al. pointed out in another article [12]. In the case of intracranial hematoma and intraventricular hemorrhage, for example, prognostication needs to be delayed until after the initial treatment to obtain a reliable prediction of future recovery [13].</p><p>By way of summary, there are a few key issues concerning the goal of neurocritical care. First, even if a favorable evaluation at 1 month was statistically associated with better patient autonomy at 1 year, we must bear in mind that specificity remained low, with the risk of inducing “paradoxical unreasonable obstinacy,” contrary to the initial objective of the MMA. Above all, remote QoL and patient satisfaction could be more relevant endpoints of our care. As physicians, we should perhaps be prepared for the person to decide, even if unable to express their will, and for us to become mere executors. This is a societal, ethical, political, financial [12] and even ecological issue, not to mention the QoL and satisfaction of loved ones. Of note, tools such as the Rehabilitation Complexity Scale-Extended [14], now integrated into some European healthcare systems, have been developed to quantify the complexity of a patient’s rehabilitation needs, considering the costs and sustainability.</p><p>In any case, in the current situation, in most centers, the neuro-intensivist still cannot avoid assessing whether the outcome is acceptable or not at the time the question arises. Finally, considering this type of publication, will we still have the right to suggest withholding or withdrawing life-sustaining therapies without having to go through this type of MMA, (independent of clinical ethics consultations)? The need to develop early MMA platforms and remote consultation systems after neurological critical care will undoubtedly become crucial.</p><p>No datasets were generated or analysed during the current study.</p><dl><dt style=\\\"min-width:50px;\\\"><dfn>GOSE:</dfn></dt><dd>\\n<p>Glasgow outcome scale-extended score</p>\\n</dd><dt style=\\\"min-width:50px;\\\"><dfn>MMA:</dfn></dt><dd>\\n<p>Multimodal assessment</p>\\n</dd><dt style=\\\"min-width:50px;\\\"><dfn>mRS:</dfn></dt><dd>\\n<p>Modified Rankin scale</p>\\n</dd><dt style=\\\"min-width:50px;\\\"><dfn>QoL:</dfn></dt><dd>\\n<p>Quality of life</p>\\n</dd></dl><ol data-track-component=\\\"outbound reference\\\" data-track-context=\\\"references section\\\"><li data-counter=\\\"1.\\\"><p>Rohaut B, Calligaris C, Hermann B, Perez P, Faugeras F, Raimondo F, et al. Multimodal assessment improves neuroprognosis performance in clinically unresponsive critical-care patients with brain injury. 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Disabil Rehabil. 2012;34:715–20. https://doi.org/10.3109/09638288.2011.615880.</p><p>Article PubMed Google Scholar </p></li></ol><p>Download references<svg aria-hidden=\\\"true\\\" focusable=\\\"false\\\" height=\\\"16\\\" role=\\\"img\\\" width=\\\"16\\\"><use xlink:href=\\\"#icon-eds-i-download-medium\\\" xmlns:xlink=\\\"http://www.w3.org/1999/xlink\\\"></use></svg></p><p>Mrs Laura SMALES for English proofreading</p><h3>Authors and Affiliations</h3><ol><li><p>Neuro-Intensive Care Unit, Rothschild Hospital Foundation, 29 Rue Manin, 75019, Paris, France</p><p>Nicolas Engrand, Armelle Nicolas-Robin, Pierre Trouiller & Stéphane Welschbillig</p></li></ol><span>Authors</span><ol><li><span>Nicolas Engrand</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li><li><span>Armelle Nicolas-Robin</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li><li><span>Pierre Trouiller</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li><li><span>Stéphane Welschbillig</span>View author publications<p>You can also search for this author in <span>PubMed<span> </span>Google Scholar</span></p></li></ol><h3>Contributions</h3><p>NE, ANR, PT and SW participated in the reflection work, drafting and revision of the manuscript.</p><h3>Corresponding author</h3><p>Correspondence to Nicolas Engrand.</p><h3>Ethics approval and consent to participate</h3>\\n<p>Not applicable.</p>\\n<h3>Consent for publication</h3>\\n<p>Not applicable.</p>\\n<h3>Competing interests</h3>\\n<p>The authors declare that they have no competing interests</p><h3>Publisher's Note</h3><p>Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.</p><p><b>Open Access</b> This article is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License, which permits any non-commercial use, sharing, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if you modified the licensed material. You do not have permission under this licence to share adapted material derived from this article or parts of it. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by-nc-nd/4.0/.</p>\\n<p>Reprints and permissions</p><img alt=\\\"Check for updates. 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What criteria for neuropronostication: consciousness or ability? The neuro-intensivist’s dilemma
Rohaut et al. published the results of a remarkable 12-year evolutionary project, showing a positive association between substantial improvement in consciousness 1 month after brain injury and a favorable outcome (Glasgow Outcome Scale-Extended [GOS-E] score ≥ 4) 1 year later, with an odds ratio of 14.6 [1]. This is a major new finding on neuropronostication, a fundamental issue in neurocritical care.
The multimodal assessment (MMA) based on seven objective criteria, combined with a critical reading by a panel of experts (the “DoC team”) comprising neuro-intensivists, neurologists, neurophysiologists, neuroradiologists and neuroscientists, allowed for predicting GOS-E score 1–3 at 1 year with 100% accuracy in the group with predicted poor prognosis. Assuming that the aim of the MMA is to give a chance for neurological recovery to every patient with a capacity for recovery, these results are highly effective. This also means that at 1 month after brain injury, when the MMA and DoC team predicted a poor 1-year prognosis, they were right. So, the first important lesson for neuro-intensivists is that they can withhold or even withdraw life-sustaining therapies according to this result, without compromising a significant chance of neurological recovery, sparing the patient 1 year of invasive care and rehabilitation.
However, only 39% of the group with predicted good prognosis achieved a GOS-E score ≥ 4 (excluding withdrawal of life-sustaining therapies and unknown decisions). Similarly, only 24% of patients in the group with an uncertain prognosis achieved this good result. Therefore, the MMA’s prediction of an uncertain or favorable outcome exposed the patient to the risk of continuing treatment inappropriately, thus leading to a large number of disabilities and dependencies. In other words, there were very few early “good-prognosis patients,” and even after the MMA, 83% of the 277 patients had a GOS-E score < 4. So, although increasing the number of modalities improved accuracy, the MMA still remained not able to reliably detect long-term ability.
These results raise the question of the goal of neurocritical care.
Although it is known that all patients ultimately recover wakefulness after severe brain injury [2] and many even recover substantial consciousness [3], some will never regain the ability to interact with their environment. These latter conditions, classified as unresponsive wakefulness syndrome or vegetative state without consciousness, are widely considered failure of care. However, what about a conscious but highly dependent patient with modified Rankin Scale (mRS) score 4 or 5 or GOS-E score 4 or 3? In neurovascular studies, an mRS score of 4 (often even 3) is considered failure. For example, this score is considered an outcome to be avoided in decompressive craniectomy studies [4] (with the exception of the recent Switch study [5]) but considered a success in studies of consciousness recovery [6].
Also, patients with an mRS score of 4 may have a lower long-term quality of life (QoL) than those with an mRS score of 2 or 3 [7]. However, long-term satisfaction studies remain quite positive, even for patients with an mRS score of 5 and those with locked-in syndrome, for example [8, 9].
Hence, the neuro-intensivists’ goal of care is sometimes at odds with that of their neurologist and neurosurgeon colleagues, who demand an mRS score of ≤ 2 or 3, and consciousness specialists, who recommend continuing treatments as soon as there is the slightest hope of contact, with a QoL that seems acceptable, or in any case accepted by most patients.
The great merit of the Rohaut et al. study is to have made the link between lack of early consciousness recovery and remote disability/dependence. Nevertheless, was not the large number of highly dependent patients generated helped by the fact that all clinical and para-clinical examinations included in the MMA processes (with the exception of DTI-MRI) focused on patients’ current state of consciousness? Would not one solution to better target remote GOS-E or mRS scores be to include rehabilitation physicians in the multidisciplinary assessment team as well as geriatricians in the case of older patients?
In fact, the goal of neurocritical care is even more questionable. Although historically, prognostic studies in intensive care first focused on survival, then on expected disability, they could now focus on the quality-adjusted life years (including both the quality and quantity of life lived) or even satisfaction of the conscious but disabled patient, although more difficult to quantify [8, 10], particularly because of cognitive barriers in patients with aphasia or significant cognitive impairment. Further progress should consist of better predicting a GOS-E or an mRS score and comparing this prognosis with the patient’s advance directives, bearing in mind that advance directives themselves have serious limitations, particularly in the case of acute cerebral injury [11]. Moreover, this question arises not only after a month of intensive neurological care but also, and probably even more sensitive, during the initial care of the brain-injured patient, as Rohaut et al. pointed out in another article [12]. In the case of intracranial hematoma and intraventricular hemorrhage, for example, prognostication needs to be delayed until after the initial treatment to obtain a reliable prediction of future recovery [13].
By way of summary, there are a few key issues concerning the goal of neurocritical care. First, even if a favorable evaluation at 1 month was statistically associated with better patient autonomy at 1 year, we must bear in mind that specificity remained low, with the risk of inducing “paradoxical unreasonable obstinacy,” contrary to the initial objective of the MMA. Above all, remote QoL and patient satisfaction could be more relevant endpoints of our care. As physicians, we should perhaps be prepared for the person to decide, even if unable to express their will, and for us to become mere executors. This is a societal, ethical, political, financial [12] and even ecological issue, not to mention the QoL and satisfaction of loved ones. Of note, tools such as the Rehabilitation Complexity Scale-Extended [14], now integrated into some European healthcare systems, have been developed to quantify the complexity of a patient’s rehabilitation needs, considering the costs and sustainability.
In any case, in the current situation, in most centers, the neuro-intensivist still cannot avoid assessing whether the outcome is acceptable or not at the time the question arises. Finally, considering this type of publication, will we still have the right to suggest withholding or withdrawing life-sustaining therapies without having to go through this type of MMA, (independent of clinical ethics consultations)? The need to develop early MMA platforms and remote consultation systems after neurological critical care will undoubtedly become crucial.
No datasets were generated or analysed during the current study.
GOSE:
Glasgow outcome scale-extended score
MMA:
Multimodal assessment
mRS:
Modified Rankin scale
QoL:
Quality of life
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Authors and Affiliations
Neuro-Intensive Care Unit, Rothschild Hospital Foundation, 29 Rue Manin, 75019, Paris, France
Nicolas Engrand, Armelle Nicolas-Robin, Pierre Trouiller & Stéphane Welschbillig
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NE, ANR, PT and SW participated in the reflection work, drafting and revision of the manuscript.
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Engrand, N., Nicolas-Robin, A., Trouiller, P. et al. What criteria for neuropronostication: consciousness or ability? The neuro-intensivist’s dilemma. Crit Care28, 322 (2024). https://doi.org/10.1186/s13054-024-05098-5
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DOI: https://doi.org/10.1186/s13054-024-05098-5
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Critical Care is an esteemed international medical journal that undergoes a rigorous peer-review process to maintain its high quality standards. Its primary objective is to enhance the healthcare services offered to critically ill patients. To achieve this, the journal focuses on gathering, exchanging, disseminating, and endorsing evidence-based information that is highly relevant to intensivists. By doing so, Critical Care seeks to provide a thorough and inclusive examination of the intensive care field.