scholarly journals Possible silent hypoxemia in a COVID-19 patient: a case report

2020 ◽  
Author(s):  
Siswanto ◽  
Munawar Gani ◽  
Aditya Rifqi Fauzi ◽  
Bagus Nugroho ◽  
Denny Agustiningsih ◽  
...  
Keyword(s):  
Blood Pressure ◽  
Cardiac Arrest ◽  
Life Support ◽  
Vital Signs ◽  
Respiratory Acidosis ◽  
Blood Gas Analysis ◽  
Respiratory Alkalosis ◽  
Gas Analysis ◽  
Shortness Of Breath ◽  
Blood Gas

Abstract Background: It has been hypothesized that silent hypoxemia is the cause of the rapid progressive respiratory failure with severe hypoxia that occurs in some patients with COVID-19 without warning. Here, we reported one COVID-19 case with the possibility of silent hypoxemia. Case presentation: A 60-year-old male presented with complaints of cough that he felt starting two weeks before admission without any breathing difficulty. Complaints were accompanied by fever, runny nose and sore throat. Vital signs examination showed blood pressure 130/75 mmHg, pulse 84 times per minute, normal respiratory rate (RR) of 21 times per minute, body temperature 36.5 C, and 99% oxygen saturation with oxygen via nasal cannula 3 liters per minute were recorded. On physical examination, an increase in vesicular sounds and crackles in both lungs were identified. Chest x-ray showed bilateral pneumonia. Nasopharyngeal and oropharyngeal swab real-time polymerase chain reaction tests for COVID-19 were positive. On the third day of treatment, the patient complained of worsening of shortness of breath, but his RR was still normal with 22 times per minute. On the fifth day of treatment, the patient experienced severe shortness of breath with a RR of 38 times per minute. The patient was then intubated and his blood gas analysis showed respiratory alkalosis (pH 7.54, PaO2 58.9 mmHg, PaCO2 31.1 mmHg, HCO3 26.9 mEq/L, SaO2 94.7%). On the eighth day of treatment, his condition deteriorated starting in the morning, with blood pressure 80/40 mmHg with norepinephrine support, pulse 109 times per minute, and 72% SpO2 with ventilator. In the afternoon, the patient experienced cardiac arrest and underwent basic life support, then resumed strained breathing with return of spontaneous circulation. Blood gas analysis showed severe respiratory acidosis (pH 7.07, PaO2 58.1 mmHg, PaCO2 108.9 mmHg, HCO3 32.1 mEq /L, SaO2 78.7%). Three hours later, he suffered cardiac arrest again, but was unable to be resuscitated. The patient eventually died.Conclusions: Silent hypoxemia might be considered as an early clinical sign of deterioration of patients with COVID-19, thus, the physician may be able to intervene early and decrease its morbidity and mortality.

scholarly journals Blood gas phenotyping and tracheal intubation timing in adult in-hospital cardiac arrest: a retrospective cohort study

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Chih-Hung Wang ◽  
Meng-Che Wu ◽  
Cheng-Yi Wu ◽  
Chien-Hua Huang ◽  
Min-Shan Tsai ◽  
...  
Keyword(s):  
Cardiac Arrest ◽  
Tracheal Intubation ◽  
Interaction Analysis ◽  
Blood Gas Analysis ◽  
Gas Analysis ◽  
Optimal Time ◽  
Hypercapnic Acidosis ◽  
Blood Gas ◽  
Regression Analyses ◽  
Hospital Cardiac Arrest

AbstractTo investigate whether the optimal time to tracheal intubation (TTI) during cardiopulmonary resuscitation would differ by different blood gas phenotypes. Adult patients experiencing in-hospital cardiac arrest (IHCA) from 2006 to 2015 were retrospectively screened. Early intra-arrest blood gas analysis, performed within 10 min of resuscitation, was used to define different phenotypes. In total, 567 patients were included. Non-severe acidosis (pH≧7.15) was associated with favourable neurological outcome (odds ratio [OR]: 4.60, 95% confidence interval [CI] 1.63–12.95; p value = 0.004) and survival (OR: 3.25, 95% CI 1.72–6.15; p value < 0.001) in the multivariable logistic regression analyses. In the interaction analysis, normal blood gas phenotype (pH: 7.35–7.45, PCO2: 35–45 mm Hg, HCO3− level: 22–26 mmol/L) × TTI ≦ 6.3 min (OR: 20.40, 95% CI 2.53–164.75; p value = 0.005) and non-severe acidosis × TTI ≦ 6.3 min (OR: 3.35, 95% CI 1.00–11.23; p value = 0.05) were associated with neurological recovery while metabolic acidosis × TTI ≦ 5.7 min (OR: 3.63, 95% CI 1.36–9.67; p value = 0.01) and hypercapnic acidosis × TTI ≦ 10.4 min (OR: 2.27, 95% CI 1.20–4.28; p value = 0.01) were associated with survival. Intra-arrest blood gas analysis may help guide TTI during for patients with IHCA.

A pilot assessment of alpha-stat vs pH-stat arterial blood gas analysis after cardiac arrest

2015 ◽  
Vol 30 (1) ◽  
pp. 138-144 ◽  
Author(s):  
Glenn M. Eastwood ◽  
Satoshi Suzuki ◽  
Cristina Lluch ◽  
Antoine G. Schneider ◽  
Rinaldo Bellomo
Keyword(s):  
Cardiac Arrest ◽  
Blood Gas Analysis ◽  
Gas Analysis ◽  
Blood Gas ◽  
Arterial Blood Gas ◽  
Arterial Blood ◽  
Arterial Blood Gas Analysis ◽  
Ph Stat

Correlation of blood gas analysis with outcome of out-of-hospital cardiac arrest patients

Resuscitation ◽  
2015 ◽  
Vol 96 ◽  
pp. 146
Author(s):  
Jonghwan Shin ◽  
Se Jong Lee ◽  
Joonghee Kim ◽  
Kyuseok Kim ◽  
Yong Su Lim ◽  
...  
Keyword(s):  
Cardiac Arrest ◽  
Blood Gas Analysis ◽  
Gas Analysis ◽  
Blood Gas ◽  
Hospital Cardiac Arrest

scholarly journals Role of blood gas analysis during cardiopulmonary resuscitation in out-of-hospital cardiac arrest patients

Medicine ◽  
2016 ◽  
Vol 95 (25) ◽  
pp. e3960 ◽  
Author(s):  
Youn-Jung Kim ◽  
You Jin Lee ◽  
Seung Mok Ryoo ◽  
Chang Hwan Sohn ◽  
Shin Ahn ◽  
...  
Keyword(s):  
Cardiac Arrest ◽  
Cardiopulmonary Resuscitation ◽  
Blood Gas Analysis ◽  
Gas Analysis ◽  
Blood Gas ◽  
Hospital Cardiac Arrest

scholarly journals Gestation in a Mare with Facial Deviation (Wry Nose)

2019 ◽  
Vol 47 ◽  
Author(s):  
Mariana Andrade Mousquer ◽  
Vitória Müller ◽  
Fernanda Maria Pazinato ◽  
Bruna Dos Santos Suñe Moraes ◽  
Leandro Américo Rafael ◽  
...  
Keyword(s):  
Fetal Development ◽  
Post Partum ◽  
Venous Blood ◽  
Respiratory Acidosis ◽  
Blood Gases ◽  
Blood Gas Analysis ◽  
Gas Analysis ◽  
Blood Gas ◽  
Aorta Diameter ◽  
Uterine Body

Background: Wry nose is a congenital deformity that causes respiratory obstruction and decreased oxygenation rate. Gestation in a wry nose mare may be considered a risk to the neonate since it depends on the maternal environment for development. Compromised oxygenation during pregnancy can lead to fetal distress and cause consequences on fetal development. However, depending on the degree of the impairment, the fetus may still be able to adapt. The aim of the present study was to report the gestation in a mare with facial deviation until term and to assess blood gases in the mare and neonate, and to evaluate the histomorphometry of the placenta.Case: A Criollo breed mare presenting facial deviation (Wry Nose) was donated to Equine Medicine Research Group (ClinEq) of the Federal University of Pelotas (UFPel) due to the presence of the physical deformity. When the mare was five years old, it was inseminated and had a pregnancy confirmed. At the fifth month of gestation, evaluation of fetal aorta diameter, fetal orbital diameter and combined thickness of the uterus and placenta (CTUP) started to be performed monthly to assess gestation health. The assessment of the fetal orbit and aorta diameter revealed a linear increase of both variables with the progress of gestation indicating a normal fetal development.  CTUP remained in the normal reference range, presenting no alterations during the gestational length. The mare foaled at 324 days of gestation a coat showing no congenital deformities. The foaling was monitored until the complete passage of fetal membranes. A complete clinical and hematological evaluation of the foal was carried out after birth. The foal showed normal adaptive behavior, clinical and hematological parameters during the first hours of life, although presenting physical signs of immaturity. Venous blood samples were collected from the mare at 315 days of gestation, immediately after foaling and 24 h post-partum for lactate and blood gas analysis.  Mild changes were observed in the mare’s blood gas analysis at foaling that were compensated within 24 h post-partum. Venous blood samples were collected from the umbilical cord and from the foal after birth, at 12 and 24 h post-partum to measure blood gases and lactate. The newborn foal presented respiratory acidosis immediately after birth, which was metabolically compensated at 24 h post-partum. Both mare’s and foal’s lactate evaluation were within the normal reference ranges. After expulsion of the placenta, samples from the gravid horn, uterine body and non-gravid horn were collected for histological and histomorphometric evaluation. In the histological evaluation, avillous areas were detected in the gravid horn and uterine body and mild hypoplasia was found in the uterine body. Placental histomorphometry revealed larger total microcotiledonary and capillary areas on the non-gravid horn when compared to the remaining areas of the placenta (gravid horn and uterine body). No abnormalities on the placental vasculature were detected.  Discussion: To date, there are no reports of a pregnancy in a mare with facial deviation in the literature. This report showed that the wry nose mare gave birth to a viable foal showing no congenital abnormalities, which suggests that wry nose animals can be bred normally. The mare presented a healthy pregnancy, with mild changes in the blood gas analysis at foaling that were compensated at 24 h postpartum. Similarly, despite the foal showed physical signs of immaturity and respiratory acidosis at birth, these changes were compensated in the later assessments. Furthermore, no abnormalities on the placental vasculature were detected.

23 NEONATAL SUPPORT THERAPY AND BLOOD GAS EVALUATION IN CLONED AND ARTIFICIAL INSEMINATION-DERIVED NEWBORN CALVES

2015 ◽  
Vol 27 (1) ◽  
pp. 104
Author(s):  
P. Fantinato-Neto ◽  
A. T. Zanluchi ◽  
M. M. Yasuoka ◽  
F. J. M. Marchese ◽  
J. R. V. Pimentel ◽  
...  
Keyword(s):  
Carbon Dioxide ◽  
Point Of Care ◽  
Respiratory Acidosis ◽  
Blood Gas Analysis ◽  
Gas Analysis ◽  
Blood Oxygenation ◽  
Blood Gas ◽  
Acid Base Balance ◽  
Reproductive Techniques ◽  
Newborn Calves

Offspring derived from artificial reproductive techniques are already known to present several postnatal undesirable phenotypes and clinical disorders. Despite its benefits, cloning by somatic cell nuclear transfer (SCNT) is extremely inefficient. The birth rate in cattle is around 5% of the transferred blastocysts, and ~50% of delivered calves die in the first 48 h. Neonatal respiratory distress is reported to be one of the main causes of such deaths. Veterinary intervention is often needed to promote or improve blood oxygenation, avoiding respiratory acidosis and improving carbon dioxide delivery from blood/lungs to the environment. This study aimed to evaluate a neonatal support therapy over the blood gas and acid-base balance on newborn calves derived from SCNT or AI. Four cloned and 3 AI-derived calves delivered by Caesarean section were used for the experiment. Postnatal therapeutic procedures were comprised 4 doses of 400 mg of intratracheal surfactant every 15 min, 25 mg of oral sildenafil every 8 h for 3 days, and 5 L min–1 intranasal oxygen. Blood collections were performed within 30 min (T0), at 12 (T12), 24 (T24) and 48 (T48) hours after delivery. Blood samples were collected from the caudal auricular artery with a butterfly and a blood gas syringe. Oxygen saturation (sO2), arterial pressure of oxygen (PaO2) and carbon dioxide (PaCO2), pH, and bicarbonate (HCO3–) were evaluated with a portable blood gas analyzer (i-STAT, Abbott Point of Care Inc., Princeton, NJ, USA). Data obtained were submitted to ANOVA (Proc MIXED; SAS/STAT, version 9; SAS Institute Inc., Cary, NC, USA). There were significant differences between groups in blood pH (P = 0.0182) and between groups (P = 0.0281) and time of collection (P = 0.0303) in blood bicarbonate (HCO3–). The AI calves were born with normal pH (7.468 ± 0.033) and the cloned calves were born in acidosis (7.216 ± 0.166). These calves were stabilised in T48 (7.427 ± 0.017) using their own HCO3– that increased over time. Although there were no differences in sO2 (P = 0.4525), PaO2 (P = 0.3086), or PaCO2 (P = 0.2514), sO2 and PaO2 were numerically increased at the same time that PaCO2 decreased in both groups. In the cloned calves, the sO2, PaO2, and PaCO2 at T0 were 61.3 ± 28.6%, 39.8 ± 18.5 mmHg, and 65.8 ± 29.3 mmHg, respectively and reached 90.0 ± 3.4%, 57.7 ± 15.8 mmHg, and 42.0 ± 3.7 mmHg. In the AI calves, T0 blood gas analysis were 79.8 ± 19.4%, 56.1 ± 42.1 mmHg, and 39.1 ± 4.8 mmHg, and at T48 were 89.0 ± 2.6%, 82.3 ± 43.5 mmHg, and 43.0 ± 4.9 mmHg for sO2, PaO2, and PaCO2 respectively. The neonate support therapy improved calves' oxygenation and helped to eliminate the carbon dioxide from the blood. In our experience, the neonatal treatment was essential in supporting the lives of the cloned calves.Funding support was received from FAPESP 2011/19543–9.

scholarly journals Arterial Blood Gas Analysis of Critically Ill Corona Virus Disease 2019 Patients

2021 ◽  
pp. 51-63
Author(s):  
Jitendra Lakhani ◽  
Sajani Kapadia ◽  
Hetal Pandya ◽  
Roop Gill ◽  
Rohit Chordiya ◽  
...  
Keyword(s):  
Metabolic Acidosis ◽  
Critically Ill ◽  
Virus Disease ◽  
Respiratory Acidosis ◽  
Respiratory Alkalosis ◽  
Gas Analysis ◽  
Blood Gas ◽  
Arterial Blood Gas ◽  
Arterial Blood ◽  
Corona Virus

Background/Aims: The aim of present study was to find out profile and sequential pattern of Arterial Blood Gas (ABG) in critically ill Corona Virus Disease 2019 (COVID-19) patients. Study Design: Observational prospective study. Methodology: A total of 80 Reverse Transcription Polymerase Chain Reaction (RT PCR) positive cases; that needed ICU admission for their life-threatening conditions were included in this study done at teaching hospital of Gujarat, India. Non consenting patients and patients who could not be followed up as per protocol were excluded. Data of Arterial Blood Gas (ABG), performed on admission, day 5 and day 10 were taken for the analysis. Patients were followed up till they remained in ICU. Results: Of 80 patients, 3 patients had normal, 24 patients (30%) had primary disorder on ABG while 53 patients (66.25%) had mixed disorders. The most common ABG abnormality observed was respiratory alkalosis with metabolic acidosis in 16 patients (20%) while respiratory alkalosis with metabolic alkalosis in 15 patients (18.75%). There was difference in ABG pattern observed among survivors and non-survivors (P=.04); of which conspicuous was presence of “respiratory acidosis with metabolic acidosis” in 5 non-survivors (15.63%), which was not seen in survivors. Of 80 patients admitted in COVID ICU; 2 improved after day 1; 6 after day 5; 40 after day 10, making total of 48 patients surviving COVID critical condition. Of 32 non-survivors, 14 died within twenty-four hours of admission, 14 within first 5 days and 04 after 10 days of ICU stay. Conclusion: ABG done on admission and serially in severe COVID-19 patients gives useful information on underlying pathophysiology. Mixed ABG pattern was more common than single disorder which can be sign of multi-organ involvement.  Respiratory acidosis with metabolic acidosis was observed significantly higher in non-survivors. Respiratory alkalosis as a part of single or mixed pattern on ABG was the most common pattern found in critically ill COVID patients.

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