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Southwest Pulmonary and Critical Care Fellowships

Critical Care

Last 50 Critical Care Postings

(Most recent listed first. Click on title to be directed to the manuscript.)

October 2024 Critical Care Case of the Month: Respiratory Failure in a
   Patient with Ulcerative Colitis
July 2024 Critical Care Case of the Month: Community-Acquired
   Meningitis
April 2024 Critical Care Case of the Month: A 53-year-old Man Presenting
   with Fatal Acute Intracranial Hemorrhage and Cryptogenic Disseminated
   Intravascular Coagulopathy
Delineating Gastrointestinal Dysfunction Variants in Severe Burn Injury
   Cases: A Retrospective Case Series with Literature Review
Doggonit! A Classic Case of Severe Capnocytophaga canimorsus Sepsis
January 2024 Critical Care Case of the Month: I See Tacoma
October 2023 Critical Care Case of the Month: Multi-Drug Resistant
   K. pneumoniae
May 2023 Critical Care Case of the Month: Not a Humerus Case
Essentials of Airway Management: The Best Tools and Positioning for 
   First-Attempt Intubation Success (Review)
March 2023 Critical Care Case of the Month: A Bad Egg
The Effect of Low Dose Dexamethasone on the Reduction of Hypoxaemia
   and Fat Embolism Syndrome After Long Bone Fractures
Unintended Consequence of Jesse’s Law in Arizona Critical Care Medicine
Impact of Cytomegalovirus DNAemia Below the Lower Limit of
   Quantification: Impact of Multistate Model in Lung Transplant Recipients
October 2022 Critical Care Case of the Month: A Middle-Aged Couple “Not
   Acting Right”
Point-of-Care Ultrasound and Right Ventricular Strain: Utility in the
   Diagnosis of Pulmonary Embolism
Point of Care Ultrasound Utility in the Setting of Chest Pain: A Case of
   Takotsubo Cardiomyopathy
A Case of Brugada Phenocopy in Adrenal Insufficiency-Related Pericarditis
Effect Of Exogenous Melatonin on the Incidence of Delirium and Its 
   Association with Severity of Illness in Postoperative Surgical ICU Patients
Pediculosis As a Possible Contributor to Community-Acquired MRSA
   Bacteremia and Native Mitral Valve Endocarditis
April 2022 Critical Care Case of the Month: Bullous Skin Lesions in
   the ICU
Leadership in Action: A Student-Run Designated Emphasis in
   Healthcare Leadership
MSSA Pericarditis in a Patient with Systemic Lupus
   Erythematosus Flare
January 2022 Critical Care Case of the Month: Ataque Isquémico
   Transitorio in Spanish 
Rapidly Fatal COVID-19-associated Acute Necrotizing
   Encephalopathy in a Previously Healthy 26-year-old Man 
Utility of Endobronchial Valves in a Patient with Bronchopleural Fistula in
   the Setting of COVID-19 Infection: A Case Report and Brief Review
October 2021 Critical Care Case of the Month: Unexpected Post-
   Operative Shock 
Impact of In Situ Education on Management of Cardiac Arrest after
   Cardiac Surgery
A Case and Brief Review of Bilious Ascites and Abdominal Compartment
   Syndrome from Pancreatitis-Induced Post-Roux-En-Y Gastric Remnant
   Leak
Methylene Blue Treatment of Pediatric Patients in the Cardiovascular
   Intensive Care Unit
July 2021 Critical Care Case of the Month: When a Chronic Disease
   Becomes Acute
Arizona Hospitals and Health Systems’ Statewide Collaboration Producing a 
   Triage Protocol During the COVID-19 Pandemic
Ultrasound for Critical Care Physicians: Sometimes It’s Better to Be Lucky
   than Smart
High Volume Plasma Exchange in Acute Liver Failure: A Brief Review
April 2021 Critical Care Case of the Month: Abnormal Acid-Base Balance
   in a Post-Partum Woman
First-Attempt Endotracheal Intubation Success Rate Using A Telescoping
   Steel Bougie 
January 2021 Critical Care Case of the Month: A 35-Year-Old Man Found
   Down on the Street
A Case of Athabaskan Brainstem Dysgenesis Syndrome and RSV
   Respiratory Failure
October 2020 Critical Care Case of the Month: Unexplained
   Encephalopathy Following Elective Plastic Surgery
Acute Type A Aortic Dissection in a Young Weightlifter: A Case Study with
   an In-Depth Literature Review
July 2020 Critical Care Case of the Month: Not the Pearl You Were
   Looking For...
Choosing Among Unproven Therapies for the Treatment of Life-Threatening
   COVID-19 Infection: A Clinician’s Opinion from the Bedside
April 2020 Critical Care Case of the Month: Another Emerging Cause
   for Infiltrative Lung Abnormalities
Further COVID-19 Infection Control and Management Recommendations for
   the ICU
COVID-19 Prevention and Control Recommendations for the ICU
Loperamide Abuse: A Case Report and Brief Review
Single-Use Telescopic Bougie: Case Series
Safety and Efficacy of Lung Recruitment Maneuvers in Pediatric Post-
   Operative Cardiac Patients
January 2020 Critical Care Case of the Month: A Code Post Lung 
   Needle Biopsy
October 2019 Critical Care Case of the Month: Running Naked in the
   Park

 

For complete critical care listings click here.

The Southwest Journal of Pulmonary and Critical Care publishes articles directed to those who treat patients in the ICU, CCU and SICU including chest physicians, surgeons, pediatricians, pharmacists/pharmacologists, anesthesiologists, critical care nurses, and other healthcare professionals. Manuscripts may be either basic or clinical original investigations or review articles. Potential authors of review articles are encouraged to contact the editors before submission, however, unsolicited review articles will be considered.

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Friday
Aug022013

August 2013 Critical Care Case of the Month: My, That’s a Big One

Andrew Waas, M.D.

 

Pulmonary Sciences and Critical Care Medicine

University of Colorado Hospital

Denver, Co

  

History of Present Illness

A 75 year old male presented to the emergency department with complaints of three days of increasing nausea, generalized weakness, and dyspnea on exertion.  He had undergone a radical prostatectomy 13 days prior to presentation from which he was recovering well until the onset of these symptoms. There was no associated chest pain, cough, fevers, chills or weight loss.

 

PMH, SH, FH

He had a history of hypertension and prostate cancer for which he underwent a recent prostatectomy.

He was born in Colorado and had not traveled recently.  There was no history of tobacco use, he drank ethanol on rare occasions, and did not use any illicit drugs. 

There was no family history of illnesses of which he was aware.

 

Medications

  • Dutasteride 0.5 mg daily
  • Telmisartan 40 mg daily

 

Physical Exam

Blood pressure 142/85, heart rate 108, temperature 36.7 C, respiratory rate 25, saturating 95% on 2L oxygen. 

Generally, he was in no distress, but was slightly tachypneic.  Lungs were clear to auscultation bilaterally and he was tachycardic but regular.  Otherwise, his exam was normal. 

 

Laboratory

Laboratory evaluation revealed a mild leukocytosis at 13 x 106 cells/mcL with 72% neutrophils and 20% lymphocytes.  His basic metabolic panel (including creatinine) was normal; his liver function tests were likewise normal. 

 

Chest Radiography

His initial portable chest x-ray is shown in Figure 1.

Figure 1. Initial portable chest x-ray

 

Which of the following best describes the chest x-ray?

  1. Cardiomegaly
  2. Cavitating lung mass
  3. Multifocal infiltrates
  4. All of the above
  5. None of the above

Reference as: Waas A. August 2013 critical care case of the month: my, that's a big one. Southwest J Pulm Crit Care. 2013;7(2):66-74. doi: http://dx.doi.org/10.13175/swjpcc096-13 PDF

Tuesday
Jul022013

July 2013 Critical Care Case of the Month: The Fortuitous Critical Care Consult

Clement U. Singarajah, M.D.

Elijah Poulos, M.D.

 

Phoenix VA Medical Center

Phoenix, AZ

 

History of Present Illness

A 70 year old male with squamous cell cancer of the hypopharynx had undergone a laser ablation and debridement as an outpatient. The ENT surgeon placed a # 6 Shiley DCT tracheostomy tube and the patient did well after the procedure. His chest x-ray after the procedure revealed right lower lobe atelectasis but was interpreted as otherwise normal (Figure 1).

Figure 1. Portable chest-ray after laser ablation and tracheostomy placement.

Due to aspiration and feeding issues, he was scheduled 2 weeks later for percutaneous endoscopic gastrostomy (PEG) tube placement as an outpatient. However, the gastroenterologist cancelled the procedure due to copious secretions from tracheal site, described as purulent and some mild respiratory distress. He was admitted to the general medicine service at the Phoenix VA Medical Center.  

Physical Examination

On examination of the patient, was non-toxic, talking, and alert. Vital signs were within normal limits, but with he had mild dyspnea and moderately thick secretions. A tracheostomy tube was in place in the neck. There were no areas of tenderness over his neck. The remainder of his physical examination was normal.

Radiography

A chest x-ray was performed (Figure 2). 

  

Figure 2. Admission PA (Panel A) and lateral (Panel B) chest x-ray.

Which of the follow are abnormal findings of the chest radiography?

  1. The distal tip of the tracheostomy tube is not aligned with the tracheal stripe
  2. There is a right pleural effusion
  3. There is an air-fluid level in the right lower lung
  4. There is right lower lobe atelectasis and/or consolidation
  5. All of the above 

Reference as: Singarajah CU, Poulos E. July 2013 critical care case of the month: the fortuitous critical care consult. Southwest J Pulm Crit Care. 2013;7(1):10-16. doi: http://dx.doi.org/10.13175/swpcc075-13 PDF 

Wednesday
Jun192013

Fluid in the Management of the Acute Respiratory Distress Syndrome

Sanjaya Karki* (drsanjaya.karki@yahoo.com)

Yong-Jie Yin* (corresponding author)-yongjieyin2003@yahoo.com.cn

Jing-Xiao Zhang*

Nijamudin Samani*

Dipesh Pradhan

Sangeeta Singh Deuja (Karki)

Reshma Karki#

Raghvendra Thakur**

Nan Zhao***

 

*Department of Emergency and Critical Care Medicine, Second Hospital of Jilin University, Changchun, China

First hospital of Jilin University, China

University of Huddersfield, UK

#Sri Birendra Hospital, Nepal

**Second Hospital of Jilin University

***Department of Chemistry, Jilin University, Changchun, China

 

Abstract

Introduction

Non-cardiogenic pulmonary edema is the hallmark of the acute respiratory distress syndrome (ARDS). The amount of fluid and which fluid should be used in these patients is controversial. 

Methods

43 patients with ARDS treated in the intensive care unit (ICU) of the Second Hospital, Jilin University between November 1, 2011-November 1, 2012 were prospectively analyzed and was observational. Volume and the type of fluid administered were compared to 90 day mortality and the 24 and 72 hour sequential organ failure assessment (SOFA) score, lactate level, oxygenation index (PaO2/FiO2), duration of ICU stay, total ventilator days, and need for continuous renal replacement therapy (CRRT).

Results

Mortality was increased when hydroxylethyl starch (HES) was used in the first day or plasma substitutes were used during the first 3 days (P<0.05, both comparisons). Volumes of fluid >3000 ml during the first 24 hours or >8000 ml during the first 72 hours were associated with higher SOFA scores at 24 and 72 hours (P<0.05, both comparisons). Colloid, especially higher volume colloid use was also associated with increased SOFA scores at either 24 or 72 hours.

Conclusions

Limiting the use of colloids and the total amount of fluid administered to patients with ARDS is associated with improved mortality and SOFA scores.

Introduction

Acute lung disease secondary to non-cardiogenic pulmonary edema has been termed the adult respiratory distress syndrome (ARDS) since first described in 1967 by Ashbaugh et al. (1,2). ARDS was later defined at a consensus conference in Berlin (3). The Berlin definition is based on timing, chest imaging, origin of edema and oxygenation.

Despite the presence of fluid within the alveoli, it has been unclear whether a conservative strategy or liberal strategy improves outcomes. The ARDS Clinical Trials Network demonstrated that a conservative strategy based on pulmonary artery wedge pressures or central venous pressures improved lung function and shortened the duration of mechanical ventilation although there was no mortality benefit (4). However, whether fluid replacement with colloid or crystalloid in ARDS results in better outcomes remains unknown.

Recently, there have been reports of increased mortality with the use of hydroxylethyl starch (HES) in sepsis (5).  Because sepsis is the most common cause of ARDS (1) this caused us to examine the use of colloids in ARDS. We found that use of colloids was associated with clinically worsening and increases mortality compared to low volumes of crystalloid in ARDS.

Materials and Methods

Subjects

This was an observational study of ARDS patients admitted to the intensive care unit (ICU) of the Norman Bethune College of Medicine, Jilin University Second Hospital, Changchun, China was conducted from November 1, 2011 to November 1, 2012.

ARDS was defined using the Berlin criteria (3).

Study Procedures

Patients were randomly divided into two groups. In one group patients were administered both crystalloid and colloid for the first 3 days of their ICU admission with ARDS. In the other group only crystalloid was used. The use of which colloid and the volume administered was left to the clinical discretion of the attending physician based on the clinical needs of the patient. Other treatment modalities such as the mode of ventilation and nutritional support were also left to the discretion of the patient although the tidal volume was kept < 7ml/kg.

Data was collected for the first 3 days of admission to the ICU. Clinical data recorded included sequential organ failure assessment (SOFA) scores, the use and amount of colloid or crystalloid, duration of ICU stay, ventilator days, need for continuous renal replacement therapy (CRRT), lactate and PaO2/FIO2. When patients received both colloid and crystalloid, volume was calculated as the sum of the volume of each. Mortality was the 90 day mortality rate.

Statistics

The data was recorded and compared using SPSS software and reported as mean + standard deviation. Comparisons between groups were performed by Student’s t-test. P values of less than 0.05 were considered significant.

Results

Patients. There were 43 patients (20 F, 23 M). The mean age was 62.7 + 18.9 years (range 20 to 85 years). The causes of ARDS was serious lung infection in 16 patients,  sepsis in 9 patients, trauma in 2 patients, and pancreatitis in 2 patients. The cause was unknown in 14 patients.

Volume of fluid. The results with differing volumes of fluid administered in the first 24 hours are shown in Table 1. [Editor's note: It may be necessary to enlarge the view on your browser in order to adequately display the tables.]

Table 1. Results based on volume of fluid used in the first day.

Mortality was unaffected by the volume of fluid used in the first 24 hours. However, the SOFA score at 24 and 72 hours was increased with volumes >3000 ml administered during the first 24 hours (P<0.05, both comparisons). The lactate level and the frequency of CRRT approached significance when volumes of >3000 ml were administered during the first 24 hours (P=0.05, both comparisons).

The results with volumes of greater or less than 8 liters are shown in table 2.

Table 2. Results based on volume of fluid used in the first 72 hours.

 

There were no significant effects of administration of greater or less than 8000 ml over 72 hours.

Type of fluid. Patients who received both crystalloid and colloid received 30 + 5% of the total volume as colloid during the first day of ICU admission. The results of administration of crystalloid compared to crystalloid and colloid during the first 24 hours are shown in Figure 3.

Table 3. Results based on type of fluid used in the first day of ICU admission.

There was no difference in mortality. The use of crystalloid alone was associated with a lower SOFA score at 72 hours (P<0.05). CRRT was more often needed for those patients given both crystalloid and colloid during the first 24 hours (P=0.05).

The results when albumin was used during the first 24 hours are in Table 4.

Table 4. Results based on albumin usage during the first day.

There was no significant effect on any of the measured outcomes when albumin was used in the first 24 hours.

The results with the use of plasma during the first 24 hours are shown in Table. 5.

Table 5. Results based on plasma usage during first day.

An increase in mortality approached statistical significance if plasma was used during the first 24 hours (P=0.05). The SOFA score was significantly higher at 72 hours if plasma used during the first day (P=0.01). The remaining outcomes were unchanged.

Results with hydroxylethyl starch (HES) use are shown in Table 6.

Table 6. Results based on hydroxylethyl starch (HES) usage during the first day.

  

Mortality was significantly higher if HES was used during the first 24 hours (P<0.05). In addition the SOFA scores were significantly higher at 24 and 72 hours if HES was administered during the first 24 hours (P<0.05, both comparisons). The lactate level was also significantly higher at 24 hours and 72 hours (P<0.05, both comparisons). The need for CRRT and the PaO2/FiO2 ratio approached significance (P=0.05, both comparisons).

Volume of colloid. The use of colloids affected several outcomes. Therefore, the amount of colloid used was examined (Table 7).

Table 7. Results based on volume of colloid used during first day. 

If colloid was used, mortality approached significance based on the volume of colloid used during the first 24 hours (P=0.05). Higher volumes of administered colloid (≥1000ml) were associated with a higher SOFA score at 72 hours (P=0.01). Lactate levels were significantly higher at 24 and 72 hours if colloid was used (P=0.04, both comparisons).PaO2/FiO2 was lower higher volumes of colloid usage (P=0.04).

Plasma, albumin or plasma substitutes during the first 72 hours. Some outcomes were higher with the use of colloids during the first 24 hours. Therefore, usage of plasma or albumin during the first 3 days was examined (Table 8).

Table 8. Effect of using of plasma or albumin during the first 3 days.

There was no significant effect on any of the outcomes with the use of plasma or albumin during the first 72 hours.

The effects of plasma substitutes during the first 72 hours are shown in Table 9.

Table 9. Results of using plasma substitutes during the first 3 days.

Higher mortality was associated with the use of plasma substitutes during the first 3 days (P=0.02).  SOFA scores at 24 and 72 hours were also increased with plasma substitute usage (P=0.03 and P=0.002 respectively). Higher Lactate levels were also observed at 24 hours and 72 hours (P<0.01, both comparisons).

Discussion

In the hospital setting there are two types of fluid physicians administer to patients-colloid or crystalloid. Crystalloid is easily accessible and can be stored at room temperature. The main purpose of this study was to compare the two different fluids and the volume fluid used. We found that use of certain colloids, particularly higher volumes, was associated with increased mortality and poorer SOFA scores.

There was increased mortality with HES and plasma substitutes and plasma approached statistical significance. This is consistent with studies done in sepsis where HES has been associated with increased mortality (5).  In contrast, there was no increase in mortality with albumin or adverse clinical outcomes, suggesting it was safe to use. The mechanism accounting for the adverse effects of colloids in ARDS and sepsis is unknown. However, the pharmokinetics of HES is known to be different from albumin and may play a role in the mortality rates (6). 

We found that administration of smaller volumes of fluid was associated with improved outcomes. This confirms previous studies done in ARDS demonstrating that a conservative strategy improves outcomes. Like the ARDS Network larger, multi-center study out smaller study was unable to find a reduction in mortality with lower volumes of fluid used.  From our studies it is unclear whether volume or the type of fluid is most important in determining survival. The data would seem to suggest that both are important. We also did not correct for differences in the equivalency of colloid compared to crystalloid solutions. Some authorities suggest that the volume expansive of colloid exceed crystalloid on absolute volume basis (7). However, corrections would likely accentuate the differences in mortality seen with volume.

It had been proposed that colloid infusion might be protective of the lungs by retaining fluid in the vascular space by oncotic pressure. However, recent studies have suggested show that colloids do not lower lung water (8). Furthermore, a recent meta-analysis found no evidence trials that resuscitation with colloids reduces the risk of death, compared to resuscitation with crystalloids, in patients with trauma, burns or following surgery (9). Furthermore, the use of hydroxyethyl starch might increase mortality. Our study is consistent with these studies.

Our trial has certain limitations. First, our study was single center. Second, the design did not include hemodynamic monitoring or other therapies. How these confounding variables might have affected the results is unknown. Third, only 43 patients were included in the trial. The trial was underpowered and confirmation of the results will be needed by larger trials.

This study demonstrates that the initial volume of fluid administered has effects on outcomes in patients with ARDS. The data in this manuscript support a dry or conservative strategy for management of ARDS. Furthermore, the choice of fluid also affects outcomes. The data in this paper would recommend the maintenance of relatively stable blood pressure with low volumes of crystalloid. As colloids are not associated with an improvement in survival, are less readily available, and are more expensive than crystalloids, it is hard to see how their continued use in clinical practice can be justified.

Conflict of Interest

None of the authors declared a conflict of interest.

Acknowledgements

The concept of this research was built by Prof. Dr. Yong –Jie Yin and Dr Sanjaya Karki. However, most of the credit goes to Dr Jing Xiao Zhang in order to complete this research successfully. All the other co-authors have equally contributed.  

References

  1. Matthay AM, Zimmerman AG. Acute lung injury and the acute respiratory distress syndrome. Am J Respir Cell Mol Biol. 2005;33(4),319-327. [CrossRef] [PubMed]
  2. Ashbaugh DG, Bigelow DB, Petty TL, Levine BE. Acute respiratory distress in adults. Lancet. 1967;2(7511):319-23. [CrossRef] [PubMed]
  3. ARDS Definition Task Force, Ranieri VM, Rubenfeld GD, Thompson BT, Ferguson ND, Caldwell E, Fan E, Camporota L, Slutsky AS. Acute respiratory distress syndrome: the Berlin Definition. JAMA. 2012;307(23):2526-33. [CrossRef] [PubMed]
  4. National Heart, Lung, and Blood Institute Acute Respiratory Distress Syndrome (ARDS) Clinical Trials Network, Wiedemann HP, Wheeler AP, Bernard GR, Thompson BT, Hayden D, deBoisblanc B, Connors AF Jr, Hite RD, Harabin AL. Comparison of two fluid-management strategies in acute lung injury. N Engl J Med. 2006;354(24):2564-75. [CrossRef] [PubMed]
  5. Perner A, Haase N, Guttormsen AB, et al. Hydroxyethyl starch 130/0.42 versus Ringer's acetate in severe sepsis. N Engl J Med. 2012;367(2):124-34. [CrossRef] [PubMed]
  6. Bellmann R, Feistritzer C, Wiedermann CJ. Effect of molecular weight and substitution on tissue uptake of hydroxyethyl starch: a meta-analysis of clinical studies. Clin Pharmacokinet 2012;51:225-36. [CrossRef] [PubMed]
  7. The SAFE Study Investigators. A comparison of albumin and saline for fluid resuscitation in the intensive care unit. N Engl J Med 2004;350:2247-2256. [CrossRef] [PubMed]
  8. van der Heijden M, Verheij J, van Nieuw Amerongen GP, Groeneveld AB. Crystalloid or colloid fluid loading and pulmonary permeability, edema, and injury in septic and nonseptic critically ill patients with hypovolemia. Crit Care Med. 2009;37(4):1275-81. [CrossRef]  [PubMed]
  9. Perel P, Roberts I, Ker K. Colloids versus crystalloids for fluid resuscitation in critically ill patients. Cochrane Database Syst Rev. 2013 Feb 28;2:CD000567. [CrossRef] [PubMed]

Reference as: Karki S, Yin Y-J, Zhang J-X, Samani N, Pradhan D, Deuja SS, Karki R, Thakur R, Zhao N. Fluid in the management of the acute respiratory distress syndrome. Southwest J Pulm Crit Care. 2013;6(6):289-98. doi: http://dx.doi.org/10.13175/swjpcc044-13 PDF

Sunday
Jun022013

June 2013 Critical Care Case of the Month: Scratch Where It Itches

Robert A. Raschke, M.D.

 

Banner Good Samaritan Medical Center

Phoenix Arizona

 

History of Present Illness

The patient is a 64 year old man who had suffered a non-orthostatic syncopal episode at home, shortly after the onset of lightheadedness.  The patient was transported to an outlying hospital where he was described to be confused, wheezing, and in respiratory distress.  He was said to be hypotensive (but no blood pressures were recorded in the transfer medical record). He was resuscitated with intravenous saline and underwent endotracheal intubation.

Past Medical History

On arrival at our hospital, further history revealed that the patient had a truncal rash for more than 20 years.  He had two previous syncopal episodes associated with delirium, hypotension and respiratory failure.  None of these episodes had any clear precipitating event.  After the first event, two years previously, a cardiac evaluation resulted in coronary artery bypass surgery. He also had a history of type 2 diabetes mellitus and was taking glipizide and metformin. There was a history of glaucoma and he was receiving timolol.

Physical Exam

Vital Signs: blood pressure 111/60 mm Hg, RR 16 breaths/min, HR 72 beats/min, temperature 37.5° C. 

HEENT: epistaxis and an oral endotracheal tube. The ETT tube had bloody pulmonary secretions.

Heart and lung: examination was unrevealing. 

Skin: venous and arterial puncture sites were oozing blood.  An erythematous and tan maculopapular rash covered his trunk (shown in figure 1).

Figure 1. Tan maculopapular rash on patient’s back (Panel A) and abdomen (Panel B)

Laboratory

Glucose 50 mg/dL (normal 70-100 mg/dL).

Activated partial thromboplastin time (aPTT) > 200 sec (normal < 30 seconds), prothrombin time (PT) > 120 secs (normal <30 seconds), and a fibrinogen of 39 mg/dL (normal 200-400 mg/dL), D-dimer 2.1 mcg/mL (normal <0.5 mcg/mL), haptoglobin <10 mg/dL (normal 41 - 165 mg/dL),  LDH 508 U/L (normal 140-280 U/L), hemoglobin 9 gms/dL (normal 13-17 gms/dL), platelet count 274,000 cells/mcL (normal 150,000-450,000 cells/mcL).

Which of the following is (are) true?

  1. The glucose of 50 is just below the normal range and does not need treatment
  2. The patient’s elevated D-dimer is diagnostic of a pulmonary embolism
  3. The patients abnormal coagulation panel is most consistent with a history of taking anticoagulants
  4. The coagulation panel is consistent with disseminated intravascular coagulation
  5. All of the above

Reference as: Raschke RA. June 2013 critical care case of the month: scratch where it itches. Southwest J Pulm Crit Care. 2013;6(6):255-62. PDF

Thursday
May022013

May 2013 Critical Care Case of the Month: Not an Air-Filled Sac

Lewis J. Wesselius, MD

 

Department of Pulmonary Medicine

Mayo Clinic Arizona

Scottsdale, AZ

 

History of Present Illness

A 66 year old woman presented to outside hospital with hematemesis and hematochezia. She was intubated for airway control and received 4 units of packed red blood cells. She was transferred to the Mayo Clinic Arizona due to an inability to control her upper gastrointestinal bleeding. During her transfer she required vasopressors.

PMH

She has a history of hepatitis C with cirrhosis and esophageal varices. In addition, she was diagnosed with a B-cell lymphoma 3 months prior to admission and had received 3 cycles of rituximab, cyclophosphamide, hydroxydaunorubicin (doxorubicin), Oncovin® (vincristine) and prednisone (R-CHOP).  

Physical Examination

She was intubated and receiving oxygen at a FiO2 of 0.4.

Vital signs: P 100 beats/min; B/P 113/78 mm Hg; Afebrile; R 20 breaths/min; SpO2 99%

Chest: clear to auscultation.

Laboratory

Her hemoglobin was 9.3 g/dL and her hematocrit was 29%.

Radiology

Her admission chest x-ray is shown in Figure 1.

Figure 1. Admission portable chest-x-ray.

Which of the following should be done initially?

  1. Bronchoscopy with bronchoalveolar lavage
  2. Endoscopy
  3. Administer octreotide to control hypotension
  4. Administer 2 units of packed red blood cells to stay ahead of the bleeding
  5. All of the above

Reference as: Wesselius LJ. May 2013 critical care case of the month: not an air-filled sac. Southwest J Pulm Crit Care. 2013;6(5):209-17. PDF