Background

The medical havoc wreaked by the novel severe acute respiratory syndrome coronavirus (SARS-CoV-2) has grown exponentially to pandemic proportions within a short span of time, starting in December 2019. As of WHO reports of 20 May 2020, more than 4.7 million people worldwide have been infected, and death tolls have crossed 0.3 million. ¹ The most common symptoms of presentation are fever, non-productive cough, fatigue, anorexia, myalgia and diarrhoea. Pulmonary, renal, gastrointestinal and hematological complications have been reported in severe cases, and, not surprisingly, nervous system involvement has been reported too. Several studies have described varied neurological manifestations of the disease. ^{Reference Huang, Wang and Li2–Reference Mao, Jin and Wang4} There are burgeoning concerns of people already suffering from chronic neurological ailments and of people receiving immunosuppressant therapies (IST) or immunomodulator therapies (IMT) for their underlying illnesses, making them more susceptible to 2019 coronavirus infectious disease (COVID-19). Essential steps also need to be taken to forestall a possible mental health crisis.

This review aims to analyze the neurological and neuropsychiatric manifestations as well as the psychological effects with a discussion of evolving therapeutic recommendations.

Results/Discussion

Neurological Comorbidities and Living Through the Pandemic

A growing body of research has proven unequivocally that the presence of an underlying comorbidity is a risk factor for more severe SARS-CoV-2 infection. ^{Reference Mao, Jin and Wang4,Reference Ruan, Yang, Wang, Jiang and Song77,Reference Chen, Wu and Chen125,Reference Herman, Mayer and Sarwal126} Guan et al. ^{Reference Guan, Ni, Hu, Liang, Ou and He3} showed that 15% of their cohort had prior cerebrovascular accident, and 11% of them suffered a more severe illness compared to 4% in the non-severe group. Herman et al. ^{Reference Herman, Mayer and Sarwal126} studied several reports and analysed that 8% of hospitalized patients diagnosed and treated for COVID-19 had an underlying neurological illness. Albeit the case fatality rates of COVID-19 are low, most of the patients succumbing are those with an underlying illness. ^{Reference Onder, Rezza and Brusaferro81} In view of this, the role of neurologists caring for patients living with an underlying disorder becomes multifaceted.

Due consideration needs to be given to the risk of patients contracting SARS-CoV-2 infection. The risk is underscored by increasing age, presence of associated comorbidities and use of IST or IMT. A multi-data-based study conducted in the Unites States showed patients with multiple sclerosis (MS) had a higher incidence of contracting infections compared to non-MS people. ^{Reference Persson, Lee and Yood127} The crude rate of infections was higher in those taking interferon-beta and glatiramer acetate, and still higher in those taking fingolimod, natalizumab or rituximab. ^{Reference Persson, Lee and Yood127} Consequently, COVID-19 infection was diagnosed in an MS patient under treatment with fingolimod in May 2020 from Iran. ^{Reference Barzegar, Mirmosayyeb and Nehzat128} Severity of the underlying illness also contributes to this accentuated risk. Neuromuscular diseases not involving the respiratory muscles, for instance, seem to be at a lower risk. Patients with Alzheimer’s disease and other types of dementia are at a greater threat, given their advanced age, coexistence of other comorbidities and poor cognition. They may fail to comply with the hygiene and sanitization standards set out by the guidelines; may not be able to acknowledge, appreciate or remember most of these recommendations; may be unable to self-monitor and report presence of symptoms; and may wander outside, compromising efforts to maintain isolation. Caregiver support is an important handicap to these patients under present circumstances.

A fundamental area of concern for neurologists is how COVID-19 affects patients with an underlying neurological illness. Infections are known to unmask or exacerbate several autoimmune neuromuscular diseases, viz. myasthenia gravis, chronic inflammatory demyelinating polyneuropathy, multifocal acquired demyelinating sensory and motor neuropathy and some degenerative disorders like amyotrophic lateral sclerosis and spinal muscular atrophy. Patients with mitochondrial and metabolic myopathies are at an increased risk of rhabdomyolysis with fever and infection. The magnitude of these risks is yet to be studied on a large scale to outlay definite precautionary measures.

Other pressing issues could be the widespread use of IST/IMT among these patients, which may increase the chance of acquiring viral infection. IST/IMT may reduce the efficacy of vaccines, which should become available to us soon. Whether or not these medicines should be stopped at present requires precise guidelines. However, the aim is to allay conditions mandating an increase in the dose of IST/IMT or hospitalization. Therefore, one must weigh the risks and benefits of continuing/stopping such medications. As such, there is no immediate need to stop these drugs in the absence of infection. Recommendations regarding the timing of vaccination with the dosing of IST/IMT are required once vaccines against SARS-CoV-2 have been developed.

It is unavoidable that a diagnosis of new neurological disorders will be delayed due to the unavailability of sufficient manpower directed at this, healthcare being targeted largely at the prevention, diagnosis and management of COVID-19. There was a definite fall in the number of stroke patients undergoing imaging at a centre in the United States compared to the pre-pandemic times. ^{Reference Kansagra, Goyal, Hamilton and Albers129} Patients will be unable to visit clinics due to transportation restrictions. There is an acute shortage of hospital beds, ventilators, and most elective workups for chronic diseases are being held up. This may adversely affect patients with pre-existing neurological disorders in ways more than one. Obtaining maintenance drugs, regular check-ups, monitoring for adverse effects of drugs may be troublesome.

Long-Term Implications

The impact of any disaster is always long-lasting. Complications of SARS-CoV-2 are unravelling gradually, the most common being ARDS. There is evidence that ARDS contributes to cognitive impairment in several ways – damage to the blood–brain barrier and use of mechanical ventilation being important ones. ^{Reference Sasannejad, Ely and Lahiri130} As more and more patients come out of assisted ventilator support systems, long-term effects on their cognition remain under threat. There is an increased need of rehabilitative services at present. Once this pandemic is over, there will be an increasing demand and strain on the healthcare system regarding the diagnosis and treatment of all the non-emergent conditions, which were put away in the wake of this pandemic.

Role of Neurologists

We are still at an early stage to completely discern the heterogenous nature of this disease. By and large, it is a disorder involving the respiratory tract most often. However, growing evidences of extra-pulmonary conditions cannot be taken lightly. It is of prime importance that neurological features are examined and worked up thoroughly and more large-scale studies conducted to get a clearer picture. Reports distinguishing between the direct effects of the virus on the nervous system and the effects of systemic illness on the nervous system (hypoxia, sepsis, hypercoagulable states and disseminated intravascular coagulation) are still nebulous. The role of telemedicine comes forward in a big way in the care of those already living with a neurological disorder. However, a wide spectrum of issues is expected with up-trending telemedicine. Most prominent disadvantages are lack of accessibility, affordability, decay of doctor–patient relationship, and lack of interpersonal communication leading to misadventures. It is of paramount value that chronic patients continue to get an undisrupted supply of medications and personal protective equipment to preclude the worsening of their conditions and curb the growing curve of infection. Emergency therapeutic interventions should be ensured to run in a smooth manner to prevent increases in mortality and morbidity of cerebrovascular events.

Of the several critical situations faced by neurologists in this present situation, the diciest remains the management of acute stroke. In the context of COVID-19, the ability to provide timely and efficacious care needs to be weighed against the risk of exposure to infection, and this becomes especially crucial in patients of acute stroke, given that specific treatment therapies within specified time windows (thrombolysis/thrombectomy/medical therapy) are known to affect the functional recovery and long-term outcome of these patients. Stroke patients may have symptomatic as well as asymptomatic COVID-19 infection or may develop fever during an hospital stay due to urinary tract infection or aspiration pneumonia as a complication of stroke, thus necessitating rapid evaluation for COVID-19 infection. Quite expectedly, these will burden the already overstressed healthcare system. Healthcare providers involved in providing care to patients of acute stroke with COVID-19 infection do have a risk of contracting the infection from them, although the exact risk is yet to be ascertained. Under these circumstances, it therefore becomes essential that recommendations and guidelines on stroke care be modified as per emergency medical situations, and neurologists follow what may be aptly termed as a “protected stroke code” instead of the regularly practised stroke codes. ^{Reference Leira, Russman and Biller131–135}

Recommendations for Managing Stroke During Covid-19 ^{Reference Leira, Russman and Biller131–Reference Hsu, Chen, Yeh, Tsai, Tang and Jeng140}

First, apart from the regular screening methods used by paramedics before transferring the patient to appropriate centres, COVID-19 pandemic mandates the use of additional screening protocol, including that of an infection control screen and a travel history screen for all patients, based on the recommendations of WHO or CDC. ^1,141,142 They must complete screening the patient for infection, assessing for features such as fever, cough, chest pain, headache, myalgia, shortness of breath and gastrointestinal symptoms like vomiting or diarrhea. ¹⁴¹ Travel history includes any recent (≤14 d) travel abroad or contact with someone who has travelled abroad, bearing in mind that as the pandemic unfolds worldwide, travel history becomes less and less important. The protected stroke code should be activated in any confirmed or suspect cases of COVID-19, as per WHO or CDC definitions. ^1,141,142 One of the challenges faced at this step is the inability to extract relevant information from the patient or relatives concerned. Approximately 10–12% of stroke patients are known to suffer from cognitive dysfunction, dysarthria, aphasia or the absence of near relatives. ^{Reference Qureshi, Gilani and Adil136,Reference Kim, Saver and Starkman137} Moreover, acute stroke patients may also be in the prodromal phase of infection or being asymptomatic carriers. The paramedics should be instructed to activate institutionally and regionally recognised protected stroke code systems for such patients also and continue with such protocols until screening can be reliably completed or COVID-19 ruled out with formal testing. Efficient communication across transfer sites and adherence to local screening procedures needs to be highlighted at this point.

Second, once this modified stroke code is activated, it alerts the stroke care team of the receiving institution. Members of the stroke team must make certain that basic measures to stop disease transmission are donned at the earliest. This includes wearing of personal protective equipment and maintaining a safe distance (at least 2 m) from the patient unless necessary. Given the acute shortages of personal protective equipment in most regions, the use of filtering face-piece respirator should be advocated to the ones most in need. Stroke evaluation often does not expose the healthcare professional to aerosol-generating procedures. In such instances, the use of filtering face-piece respirator may be reconsidered based on availability, regional prevalence of SARS-CoV-2 infection and institutional practices. As a routine, full-sleeved gown, extended cuff gloves overlapping the sleeves of the gown, eye protection (either in the form of face shield or goggles) and surgical mask, in the least, should be worn by the involved healthcare professional. Aerosol-generating procedures, for example, intubation, oropharyngeal/nasal suctioning, bag-valve-mask ventilation, proving cardiopulmonary resuscitation, non-invasive ventilation or nebulisation, will require upgrading the personal protective equipment to include a filtering face-piece respirator. A surgical mask must also be placed on the patient and should always remain so during transportation. Supplemental oxygen may be provided as required via nasal prongs, placed below this mask.

Third, the number of members on the stroke team evaluating a patient should be kept as minimum as possible, keeping in mind that those at risk of contracting infection are best kept back. The fruitful use of tele-stroke must be optimized at present to reduce exposure to the patient as much as possible. One bright side is that most aspects of stroke evaluation can be completed using tele-stroke.

Fourth, it is indispensable to maintain suitable precautionary measures even during conveyance of the patient to and from the imaging facility, not only to avoid contamination of the patient and the related healthcare professional, but also to protect the sanitization of the environment. Separate pathways may be assumed for patients with COVID-19 infection. Creation of a stroke greenway while transporting the patient to consultation suites, imaging rooms or angiographic suites may be a viable option. A suspect or confirmed case must be admitted in an isolation ward afterwards, keeping suspects apart from confirmed cases.

Fifth, while considering all these above precautionary measures, it is of prime importance that patient management does not take a backhand, and that appropriate therapies be delivered to those who arrive within the correct time windows. Besides stroke evaluation, the attending healthcare professional should also assess the patient for other underlying comorbidities, other organ damage and their general condition. A quick but helpful tool in assessing these is the Sequential Organ Failure Assessment (SOFA) score. ^{Reference Singer, Deutschman and Seymour143} This is essential because it is already a known fact that underlying illnesses and multi-organ damage worsen prognosis in COVID-19 patients, and stroke care needs to be modified accordingly. Both COVID-19 and stroke increase the risk of renal insufficiency and adversely affect their outcome. Before sending a patient for imaging studies, which require contrast administration, neurologists must consider the plausibility of development of contrast-induced nephropathy, and contrast use may be avoided altogether if not necessary. In case of suspected COVID-19 cases, it may be reasonable to carry out a CT scan of the chest in conjunction with brain CT. Whenever possible, negative pressure isolators should be utilized during imaging procedures.

Sixth, Mao et al. ^{Reference Mao, Jin and Wang4} showed that patients with severe SARS-CoV-2 infection, as well as those with neurologic complications, had leucocytosis, higher C-reactive protein and D-dimer levels. Previous studies have shown that the use of rt-PA in patients with ischemic stroke and higher levels of inflammatory markers has foreseen a greater risk of ICH and poorer prognosis. ^{Reference Tiainen, Meretoja and Strbian138–Reference Hsu, Chen, Yeh, Tsai, Tang and Jeng140} The presence of hepatic dysfunction may further add to the potential threat of ICH, as rt-PA is metabolised in the liver, ^{Reference Tanswell, Seifried, Stang and Krause144} and any dysfunction will lead to decreased clearance of the drug. Apart from a detailed coagulation profile, other tools like thromboelastography go a long way in helping neurologists weigh the risks against the benefits of rt-PA administration.

Seventh, being an invasive procedure, mechanical thrombectomy, on the other hand, will pose greater challenges. Rapid transfer between different places, even within the same hospital, may be difficult at present, given the stringent protocols that need to be followed. After measuring out pros and cons of thrombectomy, and if the patient meets all the usual inclusion criteria, thrombectomy may be considered as a therapeutic option, given that it can be performed with appropriate safety precautions assuming the patient to be a case of COVID-19. Consent from relatives may be obtained via digital communication media. Patients undergoing mechanical thrombectomy often require mechanical ventilation during or after the procedure, and more so in the setting of COVID-19. A low threshold for using general anesthesia and mechanical ventilation is advocated during these times. A tracheobronchial aspirate may be sent for SARS-CoV-2 detection at the same time. Given that several steps in introducing endotracheal intubation are aerosol-generating procedures, it may be considered favorable to intubate the patient prior to arrival at an angiographic suite.

Eighth, institutions must frame their own policies regarding decontamination and disinfection of angiographic suites and surrounding zones. Modifications of usual distinctions between critical, semi-critical and non-critical items and high-touch or low-touch surfaces must be put to order. A protocol for terminal cleaning to avoid contamination to the next patient must be followed. It is best to use a negative pressure angiographic suite, but it is not always feasible, especially in resource-crunched countries already reeling under the threats of a looming economic crisis.

Ninth, it is still debatable as to whether antiplatelets or anticoagulants are preferred in acute stroke patients with COVID-19. Due to a lack of any definite studies, it is recommended to follow the existing guidelines to administer single or dual antiplatelet agents to such patients, and to withhold these drugs for 24 h post-thrombolysis or thrombectomy. Superiority of one antiplatelet agent over another is yet to be defined.

Tenth, having said all these, we must keep in mind that it is easier said than done. Economically backward countries will undoubtedly face the heat in keeping up to more stringent protocols. The cracks on healthcare resources are already well visible and the hollowness of civilization shining through. It is therefore of supreme importance that the general preventive measures laid down by the WHO are fostered strictly by the general population, ¹⁴¹ and more so by the people more at a risk of stroke, so that viral transmission can be nipped off at the bud.

Recommendations for Care of Patients With Seizure Disorders

There are diverse predicaments faced by those with epilepsy, those caring for them as well as those treating them during these trying-and-testing times. Most studies have evinced that epilepsy does not increase the risk of SARS-CoV-2 infection, lest the patient also has associated comorbidities. ^{Reference French, Brodie and Caraballo145,146} There are however a few exceptions – autoimmune epilepsies, for instance, which make the person more susceptible to infection both due to the disease process itself and as an effect of immunomodulatory therapy for the underlying autoimmune process. ^{Reference French, Brodie and Caraballo145,146} It is of paramount importance to communicate to patients with epilepsy the consequences of discontinuation of medication. It is essential that they stock up medicines for a few months in advance taking into consideration the effects prolonged periods of lockdowns and empty pharmacy shelves are going to have. Non-compliance with therapy can have dangerous consequences. Additionally, the threshold to administer emergency rescue medications (benzodiazepines via nasal, rectal or buccal route) may be lowered in such crisis situations. The objective is to reduce visits to healthcare facilities as much as possible in order to reduce exposure to infection, prevent acute attacks of seizures/status epilepticus, to minimize visits to the emergency department and to prevent unnecessary utilization of ventilator machines in these times of crises. Caregivers should be instructed to give as much care as possible at home. Introduction of telemedicine practices will mitigate needless visits to the clinics and avoiding crowded places. While it is important to ensure compliance to medication, it should also be kept in mind that most of these antiepileptic drugs interact with many commonly used drugs. Many patients hospitalized with severe COVID-19 require antiepileptic drugs either as prophylaxis or as part of therapy, and it is irrefutable that severe infection is often associated with underlying cardiovascular comorbidities. Certain combinations are not recommended, and certain ones require extra vigilance to prevent adverse effects and avoidable drug interactions. Furthermore, some drugs used for symptomatic therapy like antihistamines are capable of lowering seizure thresholds. ^{Reference French, Brodie and Caraballo145} For certain conditions like Dravet syndrome, where fever control is crucial to allay seizures, acetaminophen can be used. ^{Reference French, Brodie and Caraballo145,146} Patients with tuberous sclerosis or autoimmune epilepsy syndromes receiving corticosteroids or everolimus, among others, are potential candidates of a dysregulated immune response because of these drugs make them more susceptible to infections. ^{Reference French, Brodie and Caraballo145–Reference Hill, Hummel and Starling147} Nevertheless, some studies have shown everolimus to prevent viral infections. ^{Reference Hill, Hummel and Starling147,Reference Tan, Sato and Shiraki148} A major drawback in the treatment of epilepsies and seizures is the limited use of electroencephalography (EEG) and other imaging procedures at present for fear of transmission of infections. The use of video monitoring EEG for the assessment of intractable seizures can be a useful alternative. Given this extraordinary reduction in healthcare facilities and strategies to reduce transmission of SARS-CoV-2, it is prudent to delay diagnostic EEG/non-emergent investigation procedures. Moreover, neurologists may consider postponement of any changes in treatment (such as weaning off or change in therapies, elective epilepsy surgeries, etc.) at present unless dictated by exigent reasons. Key advice on lifestyle issues like need for regular sleep, healthy eating habits and avoidance of alcohol and other recreational drugs must be reinforced on the patients. Anxiety and depression are of frequent occurrence in epilepsy patients, which heighten expectedly during periods of stress and must be appropriately attended to.

Recommendations for Managing Alzheimer’s and Parkinson’s Disease ^{Reference Wang, Li and Barbarino149–Reference Papa, Brundin, Fung, Kang, Burn, Colosimo, Chiang, Alcalay and Trenkwalder151}

On the flip side, we have patients suffering from Alzheimer’s disease, Parkinson’s disease or other types of dementia and movement disorders, most of whom belong to the geriatric population and are more susceptible to SARS-CoV-2 infection, and sadly are often seen to not understand the measures of hygiene and social distancing laid down by the authorities. Sometimes, even if they understand, they fail to remember them or are unable to implement them effectively. It thus becomes the responsibility of caregivers to continuously reinforce these rules and practices in a soothing and empathizing manner. These patients should be kept informed about the ongoing situation, keeping in mind their vulnerability. With the advent of modernization and growing urbanization, as more and more nuclear families are coming up, older generations are frequently found to be living alone or in residential accommodations, nursing homes and old age care facilities away from their near and dear ones. Currently, when the authorities are enforcing orders of lockdowns and social isolation, it is only natural for these people to feel more distant and isolated from their loved ones. Modes of tele-communication can serve a “modus operandi” in keeping in touch with their family members as well as provide self-help guidance like meditation and relaxation exercises and psychological counselling. Furthermore, nursing homes and long-term stay facilities must restrict the number of visitors and outsiders and prohibit group activities to contain the spread of infection.

Time and again, we have stressed on the importance of continued medication during these times, and it is advisable to keep a stock of medicines in advance to allay acute shortages. It is recommended to continue medications for Alzheimer’s or Parkinson’s disease even in the setting of COVID-19 infection to prevent further complications of the underlying illness. The use of telemedicine to examine patients has been validated in several studies, and neurologists must make the finest use of it. Direct contact with the patient is best avoided unless outright emergencies arise. Certain non-emergent procedures, like botulinum toxin injection, also mandate hospital visits and face-to-face interactions. Appropriate personal protection should be taken in such situations. However, considering the ongoing emergency, elective operations like deep brain stimulation may be deferred.

Recommendations for Patients With Demyelinating Disorders ^{Reference Brownlee, Bourdette, Broadley, Killestein and Ciccarelli152}

First, all general measures of personal protection and self-hygiene as advised by WHO and CDC must be practised strictly to prevent infection. ^141,142

Second, in those suffering from mild SARS-CoV-2 infection, it may be reasonable to continue treatment. Considerations for stopping treatment may be undertaken in those taking drugs with greater immunosuppressive effects, having risk factors for severe disease, or in those already suffering from severe infection. Treatment can be restarted after 4 weeks or after complete resolution of symptoms, keeping in mind the risk of rebound MS activity with sphingosine-1-phosphate modulators and natalizumab.

Third, fever care is of great importance in MS.

Fourth, a higher threshold should be assumed before offering corticosteroid treatment to MS patients during COVID-19 pandemic, and it is advisable to test the patient for COVID-19 before starting steroids.

Fifth, some of the drugs used in MS therapy (interferon-β, glatiramer acetate) do not increase the risk of infection, and hence they can be considered during therapy initiation and can be continued as well. Drugs with a low risk of systemic immunosuppression (dimethyl fumarate, teriflunomide) can be safe to start, but treatment continuation requires regular monitoring of leukocyte count, which may be difficult during an ongoing pandemic.

Sixth, extended interval dosing of drugs with a moderate risk of immunosuppression (S-1-P modulators, anti-CD20 antibodies) has been shown to be effective and is recommended.

Seventh, drugs causing a high degree of immunosuppression (cladribine, alemtuzumab) mandate delaying further courses of treatment based on disease status, patient factors as well as drug factors. It is also unadvisable to start therapy with these drugs at present.

Eighth, patients of neuromyelitis optical spectrum disorders should continue treatment to prevent relapses, including corticosteroids, azathioprine, mycophenolate mofetil, tocilizumab, rituximab or eculizumab. If at all drugs need to be stopped, moderate-dose corticosteroids may be given as rescue therapy to allay attacks on a short-term basis.

Ninth, it should be borne in mind that routine check-ups and laboratory investigations may always not be possible during this pandemic.

Lastly, it is always advised to provide individualized treatment based on patient factors, disease status and drug effects.

COVID-19 and its Psychological Aftermath

As most of us speculate the potential neurological manifestations of COVID-19, a rather hideous aftermath of a medical, social and economic cataclysm is slowly but rearing its ugly head. Jim E. Wallis rightly said, “sometimes it takes a natural disaster to reveal a social disaster”, and, truly enough, mental health issues in the wake of this pandemic are on the rise everywhere across the world, spanning all ages and economic strata of the society. There is an increasing prevalence of depression, anxiety, sleep and stress disorders among medical as well as non-medical healthcare personnel, children, older individuals and the general population as a whole, and as the WHO puts it, “a substantial investment is needed to avert a mental health crisis”. ¹⁴¹

A study from Ethiopia showed a threefold increase in the prevalence of depression in April 2020. ¹⁴¹ Surveys across China have reported soaring rates of depression (50%), anxiety (45%) and insomnia (34%) among healthcare personnel. ^{Reference Lai, Ma and Wang153} Similar studies from Canada recorded a mighty 47% of healthcare workers in need of psychological support. ¹⁴¹ Additionally, at-risk groups include patients contracting the disease and their relatives, children confined to their homes/quarantine centers for prolonged periods, elderly individuals, especially those in need of caregiver support or otherwise, women juggling between home-schooling, working from home and household tasks, and people already suffering from an underlying psychiatric problem. Apart from the pandemic-related psychological distress, the direct effects of SARS-CoV-2 itself and the resulting host immune response on the CNS and its neuropsychiatric sequelae should not be overlooked.

A multitude of factors can be held responsible for such emotional turmoil being faced by the greater part of the world at this point of time. Social isolation, fear of contracting infection, loss of near and dear ones, enforcement of strict public health measures curbing personal freedom, growing insecurities regarding loss of income and employment and incurring financial losses are major stressors accountable for this psychological upheaval. ^{154–Reference Dubey, Biswas and Ghosh156} Within a week of lockdowns, India registered a 20% increase in overall mental health issues. ¹⁵⁴ Moreover, frontline health workers – bearing the brunt of excessive workload, uncertainties of prognoses, shortages of resources for testing, treatment and personal protection, feelings of quandary, dilemmas about the health of self and family, discrimination, prejudice and stigmatisation – are at a greater risk of coming down with mental health issues. Research conducted by Lai et al. ^{Reference Lai, Ma and Wang153} has shown women and nurses to be more vulnerable to psychological predicaments. 76.7% of all the participants were women, and 60.8% of them were nurses (90.8% being females). ^{Reference Lai, Ma and Wang153} Probably, a continuous close contact with affected patients and longer working hours place them at a higher risk. 71.5% of them carried junior titles, lacking experience and necessary expertise to handle crisis situations. ^{Reference Lai, Ma and Wang153} These findings are very much comparable to those during the SARS outbreak in 2003. ^{Reference Maunder, Hunter and Vincent157,Reference Tam, Pang, Lam and Chiu158}

What is disheartening is to see children and young adolescents succumbing to stress and anxiety in the wake of this adversity. ^{Reference Ghosh, Dubey, Chatterjee and Dubey155,Reference Dubey, Biswas and Ghosh156} In view of forestalling further spread of this highly infectious disease, countries around the world have been forced to push a majority of their population into quarantine, which includes many children as well. While this has effectively slowed the progression of the disease, this dramatic change in their environment seems to have quite a distressing effect on everyone, and children are no exception. They are being exposed to widespread fear propelled by the rapid spread of the virus, compounded by constant news chatter about death and disease, which creates an environment of uncertainty around them. Million children worldwide are stuck in limbo, with their schools shut down indefinitely and outdoor activities stalled. ^{Reference Ghosh, Dubey, Chatterjee and Dubey155} While for those staying at home with their parents this strain may have been reduced to some extent, it is equally difficult for those separated from their caregivers/parents. Being confined to their homes for prolonged periods increases irritability, restlessness, nervousness and lack of concentrating abilities among children. ^{Reference Ghosh, Dubey, Chatterjee and Dubey155} High incidences of acute stress disorders, adjustment issues and grief among children isolated or quarantined during a pandemic have been reported. ^{Reference Dubey, Jana Dubey, Ghosh and Chatterjee159,Reference Sprang and Silman160} Parental loss during childhood does go a long way in the development of mood disorders, psychosis and increased suicidal rates in the future. There are growing evidences of household violence and child abuse in view. Children with disabilities, those staying in crowded settings and living on streets are deemed particularly vulnerable. For an entire generation, to grow up in these conditions, with no clear answers for the foreseeable future, is unprecedented and will inevitably have a significant impact on their outlook.

Any calamity of this magnitude is known to shake up the extremes of age to a greater degree than the rest of the population. In addition to the growing concerns regarding SARS-CoV-2 infection and its precariousness faced by the general population, older individuals face some other specific worries. Elderly people suffering from multiple comorbidities require regular visits to the physician for health check-ups and getting prescriptions for underlying conditions. Public transport being halted in most places has reduced visits to the clinics, and more and more use of online and telemedicine is being encouraged. Older adults have limited access to the internet and smartphones, and consequently most are unable to benefit from such provisions. Besides, many countries are facing acute shortages of drugs because of interruption of manufacture, transport and business. Likewise, people already living with a chronic psychiatric problem are unable to access care they would normally require to function in a stable way. Undoubtedly, mental health services have been suppressed to a large extent under present circumstances. In many regions, mental healthcare facilities have been converted to care facilities serving patients with COVID-19; face-to-face services that are of utmost importance in psychiatric treatments have been stopped. People already living with an existing mental illness are more vulnerable to continuous media reporting about the wavering situation. Inability to acquire their maintenance medicines, being coerced into a confined situation, lack of psychological counselling sessions, shut down of outpatient departments and reduced visits from caregivers have put those most in need at risk of falling through the cracks and have inflicted on countless others new-found grief, anxiety and depression and inclination towards self-harm. 32% of known psychiatric patients from UK have been reported worsened psychiatric symptoms during this phase. ¹⁴¹

Other potential psychiatric problems that need to be addressed are the rising incidences of addiction and substance abuse. Canada has reported an increase in alcohol intake in about 20% of adults in the age group of 15–49 years. ¹⁴¹ On the other hand, social distancing, limited celebrations and unavailability of addictive substance can lead to alarming withdrawal symptoms in many. While outdoor activities have been discontinued in most regions, a sizeable proportion of the population are resorting to binge watching of television and spending a large part of the day on electronic gadgets, laying a substrate for the development of behavioural problems in the long run.

On the other end of the spectrum lies the acute neuropsychiatric problems among those infected with COVID-19 and having neurologic complications. The wide gamut of neurological problems has already been discussed, and it is noteworthy that strokes and encephalopathies often have acute and subacute neuropsychiatric sequelae. Nearly one-third of patients admitted in the ICU are expected to develop delirium. ^{Reference Salluh, Wang and Schneider161} In an observational study by Helms et al. ^{Reference Helms, Kremer and Merdji55} from France, among the 14% of COVID-19 patients who developed neurologic complications, 33% were discharged with various executive dysfunctions, notably inattention, disorientation or poorly organised movements in response to commands. Long-term neuropsychiatric deficits following acute neurologic disorders are also not uncommon. Salluh et al. ^{Reference Salluh, Wang and Schneider161} also found persistent neurocognitive deficits in patients with delirium even after 18 months post discharge. A multitude of studies have indicated that exposure to viral infections in utero, childhood or even adulthood placed individuals at an increased risk of schizophrenia later in life. ^{Reference Khandaker, Zimbron, Dalman, Lewis and Jones162,Reference Steinberg, Hirsch, Marston, Reynolds and Sutton163} Severance et al. ^{Reference Severance, Dickerson and Viscidi164} established an increased prevalence of antibodies against four HCoV strains in patients with psychosis. Contemplating such evidence, it is not practicable to completely shut one’s eyes to these conceivable problems of SARS-CoV-2 infection in the long run.

So how do we terminate this relentless turn of events? Or are we going to be dragged into this unfathomable abyss of destruction eventually? It is what we do today that will reflect in our future. The need of the hour is to identify these potential problems and prepare us to combat them in the face. Timely mental healthcare is necessary. Mental health professionals are facing overwhelming challenges due to a lack of sufficient resources, proper protocols and guidelines and are in quandary as to how to provide mental healthcare in isolation units and hospitals. The integration of mental health crisis interventions with the general disposition of disease prevention and treatment is of indispensable value. Multidisciplinary mental health teams, both at regional and national levels, should be able to provide care to patients and health workers. Clear and accurate information regarding COVID-19 should be communicated to both patients and healthcare personnel to allay their fears and anxiety to some extent. Regular screening of suspected patients, confirmed cases and health workers for mental illness should be made a norm rather than exception. On 27 January 2020, the central health authority of China issued the “Principles for Emergency Psychological Crisis Intervention for COVID-19 Pneumonia Epidemic”. ¹⁶⁵ More than 20 specific guidelines and expert consensus were made available to frontline healthcare professionals in China at the end of February 2020. ^{Reference Li, Yang and Liu166} Extensive adoption of online education systems, psychological counselling and hotline services were set up for those in need. Consequently, two surveys conducted in China, one at the end of January and the other towards the end of February, showed remarkable improvement in mental health status among frontline healthcare professionals following dramatic changes in approaches to provisions of mental healthcare and psychological support. ^{Reference Lai, Ma and Wang153,Reference Xiang, Jin and Cheung167} Considering these recent events, it is imperative that China shares its protocol of emergency mental health services with the rest of the world. As it stands today, it is indeed the collective responsibility of governments and the civil society with the support of the whole United Nations system to fight this growing concern. International academic organisations such as the World Psychiatric Association and Pacific Rim College of Psychiatrists should aim at developing updated guidelines. Large-scale studies need to be conducted and references taken from previous experiences of pandemics to guide appropriate action. It is critical that people continue to have access to treatment and be provided with the correct information to reduce discrimination and social stigmatization. The real need is to build community-based capacities that strengthen social cohesion and reduce loneliness and aim to build resilience among adolescents and young children. Laying out newer guidelines and imposing such large-scale reforms is inevitably associated with drawbacks and limitations. Despite all these measures, it is highly probable that older individuals are unable to access the internet effectively, or healthcare professionals are faced with time constraints to avail of these services. Nevertheless, unless this pandemic is attended to at this critical hour itself, the post-COVID-19 landscape will be a fertile breeding ground for an increase in chronic stress, anxiety, depression, alcohol dependence ^{Reference Dubey, Ghosh, Chatterjee, Biswas, Chatterjee and Dubey168} and self-harm.