脉搏血氧测定在老年COVID-19患者家庭管理中至关重要

IF 0.1 Q4 OTORHINOLARYNGOLOGY Bangladesh Journal of Otorhinolaryngology Pub Date : 2020-07-01 DOI:10.3329/bjo.v26i1.47954
Md. Abdullah Yousuf Al Harun, M. M. Hossain, M. A. Bari, Nazmul Ahsan Siddiqi Rubel, M. E. Karim, N. Siddiquee, M. D. Hossain, F. Sultana, A. Taous, A. Islam, S. Khatun, Ahmed Haque, Mohammad Maksuf Ul Haque, K. Murshed, S. Atiqullah, Abu Thaher Mohammad Mahfuzul Hoque, M. Abdullah
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SARS-CoV-2, a newly emergent coronavirus has the peculiarity to produce silent hypoxia, meaning SpO2< 90% or less like 80%, 70%, 60% without shortness of breath. Silent hypoxia can be diagnosed by monitoring SpO2 with pulse oximeter. For management of COVID-19, early symptoms like fever & cough, SpO2 should be monitored by pulse oximeter, followed by immediate correction of hypoxia by O2 supplementation and prophylactic oral or injectable anticoagulant to prevent thromboembolism and thus death rate can be reduced. \nCase summary: A 72-year-old man presented with the complaints of fever and headache followed by cough, fatigue, anorexia, loss of taste and appetite in next few days but no shortness of breath. The patient was clinically diagnosed as a case of COVID-19 & positive result of Real time-Polymerase Chain Reaction (RT-PCR) test confirmed the diagnosis. From the first day, SpO2 was regularly monitored with pulse oximeter and SpO2 on day 1, it was 96-98%. On day 8, SpO2 fell to 89-93%, pulse 96/min, respiratory rate>30/min, temperature 101o F, taste sensation was reduced. According to sign and symptoms, the patient was diagnosed as COVID-19 with severe pneumonia. Management was started at home with continuous monitoring, lying in prone position for 5-6 hours/day, supplemental oxygenation to maintain level of SpO2 between 94-96%, injectable anticoagulant enoxaparin to prevent venous thromboembolism (VTE) and disseminated intravascular coagulation (DIC) was given. Prophylactic antibiotics and symptomatic treatment were also given. \nResults: According to this case report, patient’s SpO2 was monitored by pulse oximeter on first day; on day 08, SpO2 fell to 89-93% & on day 10, further dropped to 85-88% which indicated severe pneumonia but there was no complaint of breathlessness as it was silent hypoxia. Sometimes the patient spent 30 minutes or more in toilet and SpO2 used to fall to 82-83% without any subjective shortness of breath but with only mild heaviness of chest and cough. Therefore SpO2 monitoring by pulse oximeter is essential in early diagnosis of silent hypoxia. Correction of hypoxia by supplemental oxygenation and prevention of VTE and DIC by using anticoagulant was the mainstay of treatment and patient had significant improvement on day 14. The patient was managed completely at home except X-ray being done in a hospital. \nConclusion: Fall of SpO2 in COVID-19 i.e. hypoxia (usually present as shortness of breath) or silent hypoxia can be diagnosed early by pulse oximeter or smart phone pulse oximetry apps. Early management by isolation, supplemental oxygenation and oral/injectable anticoagulation can prevent further events like Acute Respiratory Distress Syndrome (ARDS), respiratory failure followed by multiple organ failure (that may cause death). 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引用次数: 13

摘要

背景:由严重急性呼吸综合征冠状病毒-2 (SARS-CoV-2)引起的2019冠状病毒病(COVID-19)呈大流行形式,已影响到215个国家的人民。它会产生发烧、咳嗽、呼吸短促、喉咙痛、头痛、失去味觉、嗅觉或食欲以及许多其他罕见症状。但最重要的症状是由于缺氧引起的呼吸短促。正常个体血氧饱和度(SpO2)至少为95%,当SpO2低于90%时,除个别例外,患者会感到呼吸短促。SARS-CoV-2是一种新型冠状病毒,具有产生无声性缺氧的特点,即SpO2< 90%或更低,如80%、70%、60%,而不会出现呼吸短促。脉搏血氧仪监测血氧饱和度可诊断无症状性缺氧。对于COVID-19的治疗,应通过脉搏血氧仪监测发热、咳嗽等早期症状,立即通过补充氧气纠正缺氧,并预防性口服或注射抗凝药物,防止血栓栓塞,从而降低死亡率。病例总结:一名72岁男性患者以发热、头痛为主诉,随后数日出现咳嗽、疲劳、厌食、味觉丧失和食欲不振,但无呼吸短促。临床诊断为COVID-19病例,实时聚合酶链反应(RT-PCR)检测阳性,确诊。从第1天起,定期用脉搏血氧仪监测血氧饱和度,第1天监测血氧饱和度为96 ~ 98%。第8天,SpO2降至89-93%,脉搏96次/min,呼吸频率bbb30次/min,体温1010f,味觉下降。根据体征和症状,诊断为COVID-19合并重症肺炎。在家中开始治疗,持续监测,俯卧位5-6小时/天,补充氧合维持SpO2水平在94-96%之间,注射抗凝药物依诺肝素预防静脉血栓栓塞(VTE)和弥散性血管内凝血(DIC)。同时给予预防性抗生素和对症治疗。结果:根据本病例报告,采用脉搏血氧仪监测患者第一天血氧饱和度;第08天SpO2降至89-93%,第10天SpO2进一步降至85-88%,提示重症肺炎,但无呼吸困难主诉,为无声性缺氧。患者如厕时间有时达30分钟以上,SpO2可降至82-83%,无主观上气短,仅轻度胸闷、咳嗽。因此脉搏血氧仪监测SpO2对早期诊断无症状性缺氧具有重要意义。以补充氧合纠正缺氧、抗凝剂预防静脉血栓栓塞和DIC为主要治疗手段,患者在第14天有明显改善。除了在医院做x光检查外,病人完全在家里进行治疗。结论:新冠肺炎患者血氧饱和度下降,即缺氧(通常表现为呼吸短促)或无症状性缺氧,可通过脉搏血氧仪或智能手机脉搏血氧仪应用程序早期诊断。通过隔离、补充氧合和口服/注射抗凝治疗的早期管理可以预防进一步的事件,如急性呼吸窘迫综合征(ARDS)、呼吸衰竭后的多器官衰竭(可能导致死亡)。作者主张进一步的临床试验和研究。孟加拉国J耳鼻咽喉;2020年4月;26 (1): 55 - 67
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Pulse Oximetry is Essential in Home Management of Elderly COVID-19 Patients
Background: Coronavirus disease 2019 (COVID-19) caused by Severe Acute Respiratory Syndrome Corona Virus-2 (SARS-CoV-2) is in Pandemic form and has affected people of 215 countries. It produces symptoms like fever, cough, shortness of breath, sore throat, headache, loss of taste, smell or appetite and many other rare symptoms. But the most important symptom is shortness of breath due to hypoxia. In a normal individual oxygen saturation (SpO2) is at least 95% and patient feels shortness of breath when SpO2 falls below 90% with some exception. SARS-CoV-2, a newly emergent coronavirus has the peculiarity to produce silent hypoxia, meaning SpO2< 90% or less like 80%, 70%, 60% without shortness of breath. Silent hypoxia can be diagnosed by monitoring SpO2 with pulse oximeter. For management of COVID-19, early symptoms like fever & cough, SpO2 should be monitored by pulse oximeter, followed by immediate correction of hypoxia by O2 supplementation and prophylactic oral or injectable anticoagulant to prevent thromboembolism and thus death rate can be reduced. Case summary: A 72-year-old man presented with the complaints of fever and headache followed by cough, fatigue, anorexia, loss of taste and appetite in next few days but no shortness of breath. The patient was clinically diagnosed as a case of COVID-19 & positive result of Real time-Polymerase Chain Reaction (RT-PCR) test confirmed the diagnosis. From the first day, SpO2 was regularly monitored with pulse oximeter and SpO2 on day 1, it was 96-98%. On day 8, SpO2 fell to 89-93%, pulse 96/min, respiratory rate>30/min, temperature 101o F, taste sensation was reduced. According to sign and symptoms, the patient was diagnosed as COVID-19 with severe pneumonia. Management was started at home with continuous monitoring, lying in prone position for 5-6 hours/day, supplemental oxygenation to maintain level of SpO2 between 94-96%, injectable anticoagulant enoxaparin to prevent venous thromboembolism (VTE) and disseminated intravascular coagulation (DIC) was given. Prophylactic antibiotics and symptomatic treatment were also given. Results: According to this case report, patient’s SpO2 was monitored by pulse oximeter on first day; on day 08, SpO2 fell to 89-93% & on day 10, further dropped to 85-88% which indicated severe pneumonia but there was no complaint of breathlessness as it was silent hypoxia. Sometimes the patient spent 30 minutes or more in toilet and SpO2 used to fall to 82-83% without any subjective shortness of breath but with only mild heaviness of chest and cough. Therefore SpO2 monitoring by pulse oximeter is essential in early diagnosis of silent hypoxia. Correction of hypoxia by supplemental oxygenation and prevention of VTE and DIC by using anticoagulant was the mainstay of treatment and patient had significant improvement on day 14. The patient was managed completely at home except X-ray being done in a hospital. Conclusion: Fall of SpO2 in COVID-19 i.e. hypoxia (usually present as shortness of breath) or silent hypoxia can be diagnosed early by pulse oximeter or smart phone pulse oximetry apps. Early management by isolation, supplemental oxygenation and oral/injectable anticoagulation can prevent further events like Acute Respiratory Distress Syndrome (ARDS), respiratory failure followed by multiple organ failure (that may cause death). The authors advocate further clinical trial and research. Bangladesh J Otorhinolaryngol; April 2020; 26(1): 55-67
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