Central Serous Chorioretinopathy Developed Following Covid-19 Vaccine

A 40-year-old male patient, an office worker, is a hospital staff. He applied with the complaint of sudden onset of blurred vision in the right eye. He stated that he had the first dose of inactivated covid vaccine (sinovac) 4 days ago in his story. In his examination, his vision was 0.5 in the right eye, 1.0 in the left eye, and his intraocular pressure was in both eyes. It was at the level of 15 mmHg. Biomicroscopically, the anterior segment looked natural. CSC was diagnosed in the FFA and OCT examinations.Treatment with oral acetazolamide (2x250 mg), topical nepafanac (4x1) was started. On the 13th day of the treatment, there was insufficient improvement in clinical findings, and oral acetazolamide was used. The dose was reduced (2x125 mg), oral epleronone (50 mg) was added. On the 70th day of the treatment, the vision in the right eye increased to full level in the control examination and it was observed that the retina returned to its normal appearance in the OCT examination.Copyright © 2023 Gazi Eye Foundation. All rights reserved.

Acetazolamide induced noncardiogenic pulmonary edema, an underreported serious adverse event.

Purpose: To report a case of acute noncardiogenic pulmonary edema (NCPE) after administration of acetazolamide post routine cataract surgery. Observations: 30 minutes after administration of oral acetazolamide, the patient experienced abdominal pain, nausea, vomiting, diarrhea, and diaphoresis. The patient was taken to the emergency room where she was found to have pulmonary edema. After life threatening respiratory failure resulting in prolonged intubation, the patient was eventually discharged from the hospital. Conclusions and importance: NCPE is a rare but severe adverse effect of acetazolamide and should be considered when prescribing such agents.

Mechanism-based approaches of 1,3,4 thiadiazole scaffolds as potent enzyme inhibitors for cytotoxicity and antiviral activity

Significant progress in understanding cancer pathogenesis, it remains one of the leading causes of death after cardiovascular diseases. Similarly viral infections have emerged from wildlife or re-emerged, generating serious threats to the global health. As a result, there is an urgent need for the development of novel, more effective anticancer and antiviral therapeutics. Scientists, medicinal chemists and researchers are continuously finding novel targets, mechanisms and molecules against theses severe and dangerous infections. Therefore, ongoing extensively study and research emphasizes 1,3,4 thiadiazole pharmacophore have versatile pharmacological actions. Due to mesoionic behaviour of 1,3,4 thiadiazole pharmacophore allows to enter and easily cross biological membrane which allow to interact various biological proteins. In this review study an attempt has been made of various mechanisms involved in cancer and viral prevalence with updated studies done so far. This review study also findings the role of 1,3,4 thiadiazole motif in the management of various cancers and viral infection. This study also highlighting research statics on clinical trials and various patents containing 1,3,4 thiadiazole derivatives. © 2022 The Author(s)

Meningoencephalitis and postinflammatory hydrocephalus in the course of COVID-19 disease in newborn - the potential role of acetazolamide as add-on therapy to the standard treatment.

The topic of SARS-CoV-2 coronavirus infections in children is still complex and not fully understood. Acute meningoencephalitis (ME) was not considered a common presentation of COVID-19 in paediatrics, however, over time, several paediatric patients with ME associated with SARS-CoV-2 coronavirus infection have been described. The case report describes the clinical case of a newborn admitted to the Neonatal Intensive Care Unit (NICU) on 11th day of life due to severe SARS-CoV-2 coronavirus infection, who experienced multiple seizure episodes. The patient was diagnosed with ME and hydrocephalus. In the absence of clinical improvement, despite the use of standard treatment, acetazolamide (ACZ) was used, achieving complete relief of seizures and gradual regression of hydrocephalus. This means that ACZ can be considered as an add-on therapy to standard treatment in cases of ME and postinflammatory hydrocephalus in the course of COVID-19 disease.

Prescribing practices in a UK Intensive Care Unit during the first wave of the COVID-19 pandemic

Introduction: Comparatively little is known about drug requirements in patients admitted to ICU with COVID-19 pneumonitis. We analysed drug usage for patients admitted during the first wave of the pandemic, comparing these with a retrospective cohort admitted with Influenza pneumonia. Methods: Forty-nine ventilated patients with COVID-19 pneumonitis were identified through ICNARC, ten were excluded as duration of stay < 7 days or not needing ventilation. Further three were excluded due to missing data and one due to ECMO escalation. Results: The median age was 61 years;length of stay 22 days and 68% survived ICU. Table 1 describes the use of Infusions and enteral medications. Discussion: Propofol was used in most (43% patient-hours in ICU/median duration = 234 hours). All patients received opiate infusions (mainly morphine or alfentanil in similar proportions) and 91% received muscle relaxants, for prolonged periods. Over half received Midazolam (median 106 hours) as an adjunct or substitute to Propofol as patients were difficult to sedate, required longer ventilation, paralysis and concerns with Propofol associated hypertriglyceridemia. Over two-third received alpha agonist infusions (median 68.5 hours) as adjunctive sedation or delirium management. Three quarters of patients received a furosemide infusion (median 90 hours), the evidence extrapolated from studies such as FACTT.1 Around three quarters received Human Albumin (median 100 grams over 3 days). Nearly a quarter received nebulized Prostacyclin for refractory hypoxia, often associated with saturation of HME filters and ventilatory difficulties.2 Over half of patients received Carbocisteine (median 13 days). Clonidine and Risperidone to manage delirium were used in a third (median 10.5 and 11 days respectively), as was Acetazolamide to restore pH and aid weaning. Over a third were prescribed enteral opiates and nearly a quarter received benzodiazepines to manage withdrawal symptoms. Just under a half of patients received Melatonin. Antibiotic usage was high with a median of 3 Antibiotics used (median duration 15 days/61% of patient days). Diagnosing superadded infection such as VAP was challenging3 and we did not routinely monitor serum Procalcitonin levels. We also compared prescribing habits with 12 influenza patients (11 survivors) identified using similar inclusion criteria and found patients with COVID-19 were older (61 versus 51 years ) with longer ICU stays (median 22 versus 20 days). They were also more likely to receive enteral Carbocisteine, Clonidine, Acetazolamide, Morphine and Diazepam. Conclusion: We were able to generate valuable data on prescribing in ventilated patients with COVID-19 pneumonitis during the first wave. Through this, we are able to use drug usage as a surrogate for issues such as delirium, drug withdrawal, antibiotic prescribing and nursing workload in general.

Treatment of Focal and Segmental Glomerulosclerosis Secondary to High Altitude Polycythemia with Acetazolamide.

Vizcarra-Vizcarra, Cristhian A., Eduardo Chávez-Velázquez, Carmen Asato-Higa, and Abdías Hurtado-Aréstegui. Treatment of focal and segmental glomerulosclerosis secondary to high altitude polycythemia with acetazolamide. High Alt Med Biol. 23:286-290, 2022.-Focal segmental glomerulosclerosis (FSGS) is a morphological pattern, caused by glomerular injury and is the leading cause of nephrotic syndrome in adults. We present the case of a 59-year-old female patient, resident of a high-altitude city (3,824 m), who had polycythemia and nephrotic syndrome. A renal biopsy was performed, and the findings were compatible with FSGS. The patient received phlebotomy 500 ml three times, which reduced, partially, the hemoglobin concentration. However, she had refractory proteinuria, despite the use of enalapril and spironolactone. We observed that proteinuria worsened with the increase in hemoglobin levels. So, she was treated with acetazolamide 250 mg bid for 4 months, which reduced proteinuria and hemoglobin. During the coronavirus disease 2019 (COVID-19) pandemic, the patient did not take acetazolamide and again, she had an increase in hemoglobin and proteinuria levels. We conclude that acetazolamide may be an effective treatment in FSGS due to high altitude polycythemia.

Rapidly progressing idiopathic intracranial hypertension after a Covid-19 infection

AimsTo present a case of a previously well child with rapidly progressing idiopathic intracranial hypertension (IIH) requiring a lumboperitoneal shunt after a Covid-19 infection.MethodsA fifteen-year-old girl presented to the Children’s Emergency Department on 23th October 2021 with a history of headaches (temporal, periorbital and occipital) and reduced visual acuity. These started following a Covid-19 infection on 30th September. She was reviewed by ophthalmology in view of deteriorating visual acuity (right eye>left eye). Bilateral papilloedema and haemorrhages were noted on examination. Her visual acuity was 6/24 unaided in the right eye and 6/7.5 unaided in the left eye. During the admission her visual acuity deteriorated to 6/36 pinhole in the right eye and 6/12 pinhole in the left eye. In the right eye she lost colour vision and developed a relative afferent pupillary defect. She received acetazolamide and intravenous methylprednisolone before being transferred to Birmingham Children’s Hospital neurosurgical ward for a lumboperitoneal shunt.There has been a significant improvement since surgery. On 22nd November there was resolving papilloedema and haemorrhages. She had normalised colour vision and resolution of the afferent pupillary reflex. Her visual acuity was 0.275 in the right eye and 0.100 in the left eye (LogMAR). However, persistent deficits could have significant consequences such as the ability to obtain a driving licence.ResultsAn MRI showed bilateral papilloedema of the optic discs. An MRV showed narrowing of the bilateral traverse sinuses with gradual tapering suggestive of high intracranial pressure. Raised intracranial pressures were confirmed by lumbar puncture on two separate occasions. The pressures were beyond the limit of the manometer used (34cm H2O).ConclusionShe had two well recognised risk factors;female gender and increased BMI so is within the high-risk group. However, she had no pathognomonic signs/symptoms of IIH or Ophthalmic complaints before COVID-19, meaning this was a rapidly progressing case that coincided with a Covid-19 infection.It is not possible to declare a cause and effect relationship in this case, but there is some emerging reports of Covid-19 positive patients with refractory headaches having isolated raised intracranial pressures within the adult population.1 2The Covid-19 pandemic has also precipitated indirect consequences. Weight gain as a result of lockdown was reported, which increased her risk of IIH.ReferencesSilva MTT, Lima MA, Torezani G, et al. Isolated intracranial hypertension associated with COVID-19. Cephalalgia. 2020;40(13):1452-1458. doi:10.1177/0333102420965963Ilhan B, Cokal BG, Mungan Y. Intracranial hypertension and visual loss following COVID-19: A case report. Indian J Ophthalmol. 2021;69(6):1625-1627. doi:10.4103/ijo.IJO_342_21

Idiopathic Intracranial Hypertension and its management in an increasingly obese population

Background and aims: Idiopathic Intracranial Hypertension (IIH) is caused by elevated cerebrospinal fluid pressure of unknown aetiology predominantly affecting obese women of childbearing age. This study looked into the management of this patient population in a country with a rising obesity rate. Methods: Patients diagnosed with IIH were identified through the national Maltese database and further data was retrospectively collected from patients' files. Results: 59 patients were identified with an average age of 34 (14-68yr), and BMI 36.3 (26.7-49.1). Most underwent repeated lumbar punctures (Graph 1). The average opening pressure was 31.71cm of water (17-72cm of water). Visual field testing (75%), fundal photos (44%) and optical coherence tomography (21%) were often employed to assess papilledema. MRI showed typical IIH changes in 75% (Table 1). All patients were started on acetazolamide. Magnitude and specific strategies for weight loss were not routinely documented. 17% were offered surgical management;including shunt insertion (15%), and dural venous sinus stenting (5%). (Figure Presented) Conclusion: With rising obesity rates, this has become an increasingly prevalent disorder. Moreover, several patients either presented or relapsed following weight gain at the beginning of the COVID-19 pandemic. This study confirmed that more focus should be employed towards weight loss, which was often poorly documented and not aggressively targeted. Patients were undergoing frequent lumbar punctures rather than repeat, non-invasive ophthalmological investigations - this was tackled locally by involving an ophthalmologist with a special interest in the disorder. A multidisciplinary task force and new local guidelines have been instrumental in standardising and optimising management for these patients.

The potential effectiveness of acetazolamide in the prevention of acute kidney injury in COVID-19: A hypothesis.

Acute kidney injury (AKI) is an important complication of COVID-19 encompassing a wide range of presentations. SARS-CoV-2 is proposed to cause AKI in the patients through various mechanisms. We are, nevertheless, far from a comprehensive understanding of the underlying pathophysiological mechanisms of the kidney injury in this infection. AKI has been shown to be a marker of disease severity and also a negative prognostic factor for survival. Unfortunately, no effective preventive strategy to decrease the risk of kidney damage in these patients has yet been identified. In this hypothesis, we highlight the potential protective effects of acetazolamide, a carbonic anhydrase inhibitor, in preventing the proximal tubular damage caused by the virus through disrupting the virus-endosome fusion and also interfering with the lysosomal proteases. Our proposed mechanisms could pave the way for further in vitro studies and subsequent clinical trials.

COVID-19 Lung Injury and High-Altitude Pulmonary Edema. A False Equation with Dangerous Implications.

Amid efforts to care for the large number of patients with coronavirus disease (COVID-19), there has been considerable speculation about whether the lung injury seen in these patients is different than acute respiratory distress syndrome from other causes. One idea that has garnered considerable attention, particularly on social media and in free open-access medicine, is the notion that lung injury due to COVID-19 is more similar to high-altitude pulmonary edema (HAPE). Drawing on this concept, it has also been proposed that treatments typically employed in the management of HAPE and other forms of acute altitude illness-pulmonary vasodilators and acetazolamide-should be considered for COVID-19. Despite some similarities in clinical features between the two entities, such as hypoxemia, radiographic opacities, and altered lung compliance, the pathophysiological mechanisms of HAPE and lung injury due to COVID-19 are fundamentally different, and the entities cannot be viewed as equivalent. Although of high utility in the management of HAPE and acute mountain sickness, systemically delivered pulmonary vasodilators and acetazolamide should not be used in the treatment of COVID-19, as they carry the risk of multiple adverse consequences, including worsened ventilation-perfusion matching, impaired carbon dioxide transport, systemic hypotension, and increased work of breathing.

Current pharmacological modalities for management of novel coronavirus disease 2019 (COVID-19) and the rationale for their utilization: A review.

SARS-CoV-2 has caused a pandemic which is putting strain on the health-care system and global economy. There is much pressure to develop both preventative and curative therapies for SARS-CoV-2 as there is no evidence to support therapies to improve outcomes in patients with SARS-CoV-2. Medications that inhibit certain steps of virus life cycle that are currently used to treat other illnesses such as Malaria, Ebola, HIV and Hepatitis C are being studied for use against SARS-CoV-2. To date, data is limited for medications that facilitate clinical improvement of COVID-19 infections.

Acetazolamide, Nifedipine and Phosphodiesterase Inhibitors: Rationale for Their Utilization as Adjunctive Countermeasures in the Treatment of Coronavirus Disease 2019 (COVID-19).

Effective treatments for Coronavirus Disease 2019 (COVID-19) outbreak are urgently needed. While anti-viral approaches and vaccines are being considered immediate countermeasures are unavailable. The aim of this article is to outline a perspective on the pathophysiology of COVID-19 in the context of the currently available clinical data published in the literature. This article appreciates clinical data published on COVID-19 in the context of another respiratory illness - high altitude pulmonary edema (HAPE). Both conditions have significant similarities that portend pathophysiologic trajectories. Following this potential treatment options emerge. Both COVID-19 and HAPE exhibit a decreased ratio of arterial oxygen partial pressure to fractional inspired oxygen with concomitant hypoxia and tachypnea. There also appears to be a tendency for low carbon dioxide levels in both as well. Radiologic findings of ground glass opacities are present in up to 86% of patients with COVID-19 in addition to patchy infiltrates. Patients with HAPE also exhibit patchy infiltrates throughout the pulmonary fields, often in an asymmetric pattern and CT findings reveal increased lung markings and ground glass-like changes as well. Widespread ground-glass opacities are most commonly a manifestation of hydrostatic pulmonary edema. Similarly, elevated fibrinogen levels in both conditions are likely an epiphenomenon of edema formation rather than coagulation activation. Autopsy results of a COVID-19 fatality revealed bilateral diffuse alveolar damage associated with pulmonary edema, pro-inflammatory concentrates, and indications of early-phase acute respiratory distress syndrome (ARDS). HAPE itself is initially caused by an increase in pulmonary capillary pressure and induces altered alveolar-capillary permeability via high pulmonary artery hydrostatic pressures that lead to a protein-rich and mildly hemorrhagic edema. It appears that COVID-19 and HAPE both discretely converge on ARDS. In light of this, a countermeasure that has been shown to be effective in the analogous condition of HAPE is Acetazolamide. Acetazolamide has a myriad of effects on different organ systems, potently reduces hypoxic pulmonary vasoconstriction, improves minute ventilation and expired vital capacity. Other therapeutics to consider that are also directed towards decreased pulmonary pressure include Nifedipine and Phosphodiesterase inhibitors. This review describes COVID-19 in parallel to HAPE. Deranged respiratory parameters that are present in both conditions are highlighted. The utilization of medications found to be effective in HAPE, for the treatment of COVID-19, is proposed. Given the medical emergency of a growing contagion and the thousands of lives at stake, expedient attempts to improve survival are needed. Acetazolamide, Nifedipine and Phosphodiesterase inhibitors may be potential countermeasures.