Keywords
COVID-19, Coronavirus, Pandemic, Pneumonia, SARS, Respiratory, Throat swab
This article is included in the Coronavirus collection.
COVID-19, Coronavirus, Pandemic, Pneumonia, SARS, Respiratory, Throat swab
Coronavirus disease 2019 (COVID-19) is a highly contagious viral pandemic caused by a novel strain of severe acute respiratory syndrome (SARS)-related coronavirus (CoV) named SARS-CoV-21. The virus is part of the family of coronaviruses which have been involved in previous infectious outbreaks, namely SARS 2003 and Middle East respiratory syndrome (MERS) 20122. Initially detected in December 2019 in the Hubei Province of China3, information related to its epidemiology and virulence is constantly evolving as the disease spreads across the world. Overall global prevalence of the disease is difficult to assess with reasonable accuracy due to a paucity of standardized global testing and reporting4, which in turn makes it difficult to accurately assess the mortality rate associated with the disease.
As of June 17, 2020, confirmed cases of COVID-19 are close to 8,200,000 with more than 444,000 deaths reported worldwide. The United States has become the epicenter of this pandemic with more than 2,137,000 confirmed cases and over 116,000 reported deaths5. The information related to Covid-19 is evolving on a daily basis and recent reports indicate that there may be other Covid-19 strains affecting different areas of the globe6.
To describe the longitudinal assessment of a 50-year-old female, RT-PCR confirmed - COVID-19 patient, during an evolving pandemic and changing guidelines.
We present the case report of a 50-year-old South Asian female who came to our clinic in the middle of April 2020, complaining of intermittent fever ranging between 100-102°F, chills, night sweats, fatigue, and myalgia for the past six days. The patient reported no past medical history, no recent international travel history or exposure to any known COVID-19 positive patient and is a nutritionist by profession. At the clinic (day 6 of symptom onset, see Figure 1), she was noted to have a fever of 100.2℉. Two days prior (day 4 of symptoms, Figure 1), she reported testing negative for Streptococcus (group A strep) and influenza at an urgent care facility. During her visit at our clinic, her physical exam was unremarkable and her lungs were clear on auscultation. In view of her clinical presentation and negative strep and influenza test, we decided to test her for COVID-19 and an oropharyngeal swab was collected and sent for RT-PCR analysis. One day after her visit to our clinic (day 7 of symptoms, Figure 1), the patient developed shortness of breath (SOB) with persistent fever ranging between 100–102°F, chills, night sweats, fatigue and myalgia. She was started on a seven-day course of Levaquin (500 mg once daily) empirically for a presumptive diagnosis of community acquired pneumonia while awaiting RT-PCR results and albuterol inhaler (every four hours or as needed) for bronchospastic cough. The following day (day 8 of symptoms, Figure 1), she returned to the clinic, and during auscultation of the lungs, bibasilar crackles were noted, greater on her left lung compared to the right lung. She was then sent to the emergency department (ED) of a nearby hospital where a chest x-ray was performed on the same day (Figure 2). The chest x-ray revealed bilateral pulmonary infiltrates. Her laboratory work-up in the ED showed an elevated blood lactate level of 2.0mmol/L (normal: 0.5–1mmol/L), while her complete blood count and basic metabolic panel showed no abnormalities. Oxygen saturation rate was 97% and she was subsequently discharged to home. Three days after her visit to the ED (day 11 of symptoms, Figure 1), the patient still reported persistent SOB and was sent by our clinic to the ED for follow-up evaluation and possible need for chest CT given concerns for Covid-19 related viral pneumonia. At the ED, another chest x-ray was done which showed patchy opacities with air bronchograms in the left mid-lung and left lower lobe as well as similar patchy peripheral opacities at the right upper lobe, suggesting infectious etiology and worsening pneumonia (Figure 3). Oxygen saturation rate was still 97%, no other laboratory tests were reportedly done during this visit and she was again discharged to home. Four days later (day 15 of symptoms, Figure 1), the patient became afebrile (97.6℉) and reported not having any chills but still complained of significant fatigue and myalgia; her SOB, however, was improving. The next day (day 16 of symptoms, Figure 1), the patient returned to our clinic with a fever of 99.1℉. While her breathing was much better, she stated that she felt weak and had significant diffuse muscle pain. At the clinic, we performed a rapid COVID-19 specific IgM/IgG test, provided by Boston Biopharma, which came up positive for both IgM and IgG 16 days after the initial onset of symptoms (Figure 1). Routine labs were also done that showed anemia with hemoglobin 10.5g/dl (normal: 11.7–15.5g/dl) and hematocrit 33.1% (normal: 35–45%) with mean corpuscular volume 74fl (normal: 80-100fl), mean corpuscular hemoglobin 23.5pg (normal: 27–33pg), mean corpuscular hemoglobin concentration 31.7g/dl (normal: 32–36g/dl), platelet count 857,000/ml (140–400K/ml), an elevated C-reactive protein level (CRP) of 30.4mg/l (normal: <8.0), and creatine phosphokinase (CPK) of 39u/L (normal: 29–143 u/L). Her comprehensive metabolic panel (CMP), and white blood cell count with differential showed no abnormalities. On day 17 since symptom onset, the patient was afebrile (97.5℉) without dyspnea and no further labs were done after this point since the patient started to improve symptomatically. She did however complain of persistent weakness and myalgia. The patient’s husband and son had both remained asymptomatic during the entire episode and both tested negative with Boston Biopharma’s rapid COVID-19 antibody test on the same day as the patient was tested for antibodies (day 16 of patient’s symptoms, Figure 1). However, results from nasopharyngeal swabs taken from both the husband and son for RT-PCR analysis returned a week later were positive for the husband only. The husband’s repeat IgM and IgG, checked twice seven days apart, remain negative and he has continued to remain asymptomatic.
All three individuals, the patient, her husband, and her son were interviewed again for any recollection of recent travel or secondary exposure. Her husband had returned just two weeks before the onset of her symptoms, after a week-long stay in San Francisco. Four days after his return from San Francisco, he travelled again to Atlanta for a day trip and attended a conference in Washington, DC before returning home the next day. Just a couple of days after the husband’s return the patient recalled going to an axe-throwing party with him and a group of friends. She also claimed that her husband developed a slight fever and a sore throat the day after this party and his symptoms lasted for at least three days (see Figure 1). Of note, the patient herself had developed a sore throat and low-grade fever by this time and this was the onset of all her reported symptoms. We also learned that four people from the group that attended the axe-throwing party reported “some” illness. One couple (Couple 1) had high fever and cough that lasted for 2–3 days and were told to self-quarantine for 14 days by their primary care provider (no information is available if they were tested). Couple 2 had been in San Francisco the same week as patient’s husband, but they did not meet there. This couple also reported being sick with fever and cough that lasted three days around the same time as her husband’s symptoms. They were also advised by their primary care physician to self-quarantine for 14 days. All cases from the axe-throwing party (husband, Couple 1 and Couple 2) recovered without any worsening of symptoms in 2–3 days, and prior to the patient’s development of her symptoms.
The most common symptoms of Covid-19 are fever, cough, loss of energy or exhaustion, and to a varying degree, other bodily manifestations7. The symptoms and findings suggestive of disease progression that should raise concern are chest discomfort (pressure, tightness)8, confusion or change in mental status not otherwise related to another etiology9, and hypoxia without necessarily experiencing shortness of breath10. In more severe cases, infection can cause pneumonia, severe acute respiratory distress syndrome (ARDS), and even death. It is believed that ARDS and similar catastrophic respiratory changes may be related to a cytokine storm phenomenon11. The period within which the symptoms seem to manifest is wide, ranging from two to 14 days12. In our patient, a 50-year-old female with no international travel history, no co-morbidities but with potential exposure to multiple people who had traveled to a high Covid-19 exposure area, initial symptoms (fever, sore throat, chills, myalgia), appeared on the third day after being at the axe throwing party (a potential exposure event) and progressed in little over a week to dyspnea and worsening bilateral pneumonia. The husband, Couple 1 and Couple 2 seemed to have developed mild symptoms just a day or two after the axe-throwing party, suggesting that one of the members at this party was the source and probably an asymptomatic carrier. It is important to note that our patient who was Covid-19 positive (RT-PCR), developed bilateral pneumonia and was treated only with Levaquin and albuterol and recovered, indicating that in the absence of some major event such as a cytokine storm or ARDS, viral pneumonia due to SARS CoV-2 can clear by itself.
It is well established that the initial defense to a foreign antigen involves a complex immune response, both of innate and adaptive types. Antibody response in the form of IgM provides a critical defense during the early stages of a viral infection. Subsequent development of a longer-term IgG antibodies further augments the adaptive immune response and may eventually represent some form of immunological memory13. In our patient, both IgM and IgG were positive 16 days after symptom onset. Testing of Covid-19 IgM and IgG antibodies is therefore an effective method for confirming whether an individual has had the Covid-19 infection. This has value both in diagnosis and monitoring for early or late infectivity response. While viral replication usually wanes within a week or two without significant illness in most healthy individuals, antibody response, especially IgG antibody, typically rises for a few weeks after exposure and can remain elevated for long periods of time, sometimes even years, which is in fact the driving principle behind vaccination. For this reason, antibody testing will likely be the most valuable tool to assess the prevalence of SARS-CoV-2 infection and the level of exposure within the population14.
A recent study published in the Lancet concluded that RT-PCR alone may not be sufficient in diagnosing a patient with Covid-19 in the lower respiratory tract or in assessing infectivity after few weeks of exposure15. Another study raises concern for the high false negative rates associated with nasopharyngeal and oropharyngeal swab sampling in an out-patient setting16. In view of these findings, it is our opinion that rapid antibody testing is an important tool for the clinical assessment and management of Covid-19. Such a test would be ideal in the third week from symptom onset based on our current knowledge of the immune response to viral pathogens. Subsequent RT-PCR is warranted if IgM is found to be positive so that the patient may be fully assessed for continued viral infectiousness and possible isolation. Additionally, given the asymptomatic status of both husband and son in such proximity to a Covid-19 patient, a rapid antibody test can be valuable for determining a person’s Covid-19 disease status and for surveillance17. In this case, the patient’s spouse tested positive with nasopharyngeal RT-PCR but negative with repeated serologic tests raising the possibility that he may be a nasal carrier.
Our patient also had elevated CPK levels with persistent weakness and myalgia suggestive of post-viral myopathy. A broader survey of COVID-19 patients can inform if this is a significant sequela of the disease.
This case report helps to highlight the urgent need to answer some of the most pertinent questions associated with this pandemic such as the duration of quarantine, role of serologic antibody tests in diagnosing, management, and immunity assessment, and the role of various laboratory measurements in clinical follow-up. We recognize the limitations of this being a single case report (and of associated family members) and acknowledge that additional studies are necessary to determine how best to screen RT-PCR positive patients to assure that they are no longer infectious to their immediate contacts as well as the healthcare workers who are providing care for them18.
All data underlying the results are available as part of the article and no additional source data are required.
Written informed consent for publication of their clinical details and clinical images was obtained from the patient. Written informed consent was also obtained from the mentioned relatives of the patient for publication of their clinical details.
We thank Dr. Sadiya Naseem, DNP, FNP-BC for following up on the patient and helping collect information
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Is the background of the case’s history and progression described in sufficient detail?
Yes
Are enough details provided of any physical examination and diagnostic tests, treatment given and outcomes?
Yes
Is sufficient discussion included of the importance of the findings and their relevance to future understanding of disease processes, diagnosis or treatment?
Yes
Is the case presented with sufficient detail to be useful for other practitioners?
Yes
References
1. López Castro J: COVID-19 and thrombosis: Beyond a casual association.Med Clin (Engl Ed). 2020; 155 (1): 44 PubMed Abstract | Publisher Full TextCompeting Interests: No competing interests were disclosed.
Reviewer Expertise: Epidemiology of heart failure in elderly population: risk factors, quality life health related and survival. Another line of research includes the study of prognostic biomarkers in COVID19 and genetics changes. Apart form this, we are developing a study about advance care planning financed by the Spanish Government.
Is the background of the case’s history and progression described in sufficient detail?
Yes
Are enough details provided of any physical examination and diagnostic tests, treatment given and outcomes?
Yes
Is sufficient discussion included of the importance of the findings and their relevance to future understanding of disease processes, diagnosis or treatment?
Yes
Is the case presented with sufficient detail to be useful for other practitioners?
Yes
References
1. Zhang J, Cao Y, Dong X, Wang B, et al.: Distinct characteristics of COVID‐19 patients with initial rRT‐PCR‐positive and rRT‐PCR‐negative results for SARS‐CoV‐2. Allergy. 2020; 75 (7): 1809-1812 Publisher Full TextCompeting Interests: No competing interests were disclosed.
Reviewer Expertise: Allergy.
Alongside their report, reviewers assign a status to the article:
Invited Reviewers | ||
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Provide sufficient details of any financial or non-financial competing interests to enable users to assess whether your comments might lead a reasonable person to question your impartiality. Consider the following examples, but note that this is not an exhaustive list:
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