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100 Cases In Surgery, Second Edition James A Gossage.pdf

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StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024 Jan-.

StatPearls [Internet].

Case study: 33-year-old female presents with chronic sob and cough.

Sandeep Sharma ; Muhammad F. Hashmi ; Deepa Rawat .

Affiliations

Last Update: February 20, 2023 .

• Case Presentation

History of Present Illness:  A 33-year-old white female presents after admission to the general medical/surgical hospital ward with a chief complaint of shortness of breath on exertion. She reports that she was seen for similar symptoms previously at her primary care physician’s office six months ago. At that time, she was diagnosed with acute bronchitis and treated with bronchodilators, empiric antibiotics, and a short course oral steroid taper. This management did not improve her symptoms, and she has gradually worsened over six months. She reports a 20-pound (9 kg) intentional weight loss over the past year. She denies camping, spelunking, or hunting activities. She denies any sick contacts. A brief review of systems is negative for fever, night sweats, palpitations, chest pain, nausea, vomiting, diarrhea, constipation, abdominal pain, neural sensation changes, muscular changes, and increased bruising or bleeding. She admits a cough, shortness of breath, and shortness of breath on exertion.

Social History: Her tobacco use is 33 pack-years; however, she quit smoking shortly prior to the onset of symptoms, six months ago. She denies alcohol and illicit drug use. She is in a married, monogamous relationship and has three children aged 15 months to 5 years. She is employed in a cookie bakery. She has two pet doves. She traveled to Mexico for a one-week vacation one year ago.

Allergies:  No known medicine, food, or environmental allergies.

Past Medical History: Hypertension

Past Surgical History: Cholecystectomy

Medications: Lisinopril 10 mg by mouth every day

Physical Exam:

Vitals: Temperature, 97.8 F; heart rate 88; respiratory rate, 22; blood pressure 130/86; body mass index, 28

General: She is well appearing but anxious, a pleasant female lying on a hospital stretcher. She is conversing freely, with respiratory distress causing her to stop mid-sentence.

Respiratory: She has diffuse rales and mild wheezing; tachypneic.

Cardiovascular: She has a regular rate and rhythm with no murmurs, rubs, or gallops.

Gastrointestinal: Bowel sounds X4. No bruits or pulsatile mass.

• Initial Evaluation

Laboratory Studies:  Initial work-up from the emergency department revealed pancytopenia with a platelet count of 74,000 per mm3; hemoglobin, 8.3 g per and mild transaminase elevation, AST 90 and ALT 112. Blood cultures were drawn and currently negative for bacterial growth or Gram staining.

Chest X-ray

Impression:  Mild interstitial pneumonitis

• Differential Diagnosis
• Aspiration pneumonitis and pneumonia
• Bacterial pneumonia
• Immunodeficiency state and Pneumocystis jiroveci pneumonia
• Carcinoid lung tumors
• Tuberculosis
• Viral pneumonia
• Chlamydial pneumonia
• Coccidioidomycosis and valley fever
• Recurrent Legionella pneumonia
• Mediastinal cysts
• Mediastinal lymphoma
• Recurrent mycoplasma infection
• Pancoast syndrome
• Pneumococcal infection
• Sarcoidosis
• Small cell lung cancer
• Aspergillosis
• Blastomycosis
• Histoplasmosis
• Actinomycosis
• Confirmatory Evaluation

CT of the chest was performed to further the pulmonary diagnosis; it showed a diffuse centrilobular micronodular pattern without focal consolidation.

On finding pulmonary consolidation on the CT of the chest, a pulmonary consultation was obtained. Further history was taken, which revealed that she has two pet doves. As this was her third day of broad-spectrum antibiotics for a bacterial infection and she was not getting better, it was decided to perform diagnostic bronchoscopy of the lungs with bronchoalveolar lavage to look for any atypical or rare infections and to rule out malignancy (Image 1).

Bronchoalveolar lavage returned with a fluid that was cloudy and muddy in appearance. There was no bleeding. Cytology showed Histoplasma capsulatum .

Based on the bronchoscopic findings, a diagnosis of acute pulmonary histoplasmosis in an immunocompetent patient was made.

Pulmonary histoplasmosis in asymptomatic patients is self-resolving and requires no treatment. However, once symptoms develop, such as in our above patient, a decision to treat needs to be made. In mild, tolerable cases, no treatment other than close monitoring is necessary. However, once symptoms progress to moderate or severe, or if they are prolonged for greater than four weeks, treatment with itraconazole is indicated. The anticipated duration is 6 to 12 weeks total. The response should be monitored with a chest x-ray. Furthermore, observation for recurrence is necessary for several years following the diagnosis. If the illness is determined to be severe or does not respond to itraconazole, amphotericin B should be initiated for a minimum of 2 weeks, but up to 1 year. Cotreatment with methylprednisolone is indicated to improve pulmonary compliance and reduce inflammation, thus improving work of respiration. [1] [2] [3]

Histoplasmosis, also known as Darling disease, Ohio valley disease, reticuloendotheliosis, caver's disease, and spelunker's lung, is a disease caused by the dimorphic fungi  Histoplasma capsulatum native to the Ohio, Missouri, and Mississippi River valleys of the United States. The two phases of Histoplasma are the mycelial phase and the yeast phase.

Etiology/Pathophysiology 

Histoplasmosis is caused by inhaling the microconidia of  Histoplasma  spp. fungus into the lungs. The mycelial phase is present at ambient temperature in the environment, and upon exposure to 37 C, such as in a host’s lungs, it changes into budding yeast cells. This transition is an important determinant in the establishment of infection. Inhalation from soil is a major route of transmission leading to infection. Human-to-human transmission has not been reported. Infected individuals may harbor many yeast-forming colonies chronically, which remain viable for years after initial inoculation. The finding that individuals who have moved or traveled from endemic to non-endemic areas may exhibit a reactivated infection after many months to years supports this long-term viability. However, the precise mechanism of reactivation in chronic carriers remains unknown.

Infection ranges from an asymptomatic illness to a life-threatening disease, depending on the host’s immunological status, fungal inoculum size, and other factors. Histoplasma  spp. have grown particularly well in organic matter enriched with bird or bat excrement, leading to the association that spelunking in bat-feces-rich caves increases the risk of infection. Likewise, ownership of pet birds increases the rate of inoculation. In our case, the patient did travel outside of Nebraska within the last year and owned two birds; these are her primary increased risk factors. [4]

Non-immunocompromised patients present with a self-limited respiratory infection. However, the infection in immunocompromised hosts disseminated histoplasmosis progresses very aggressively. Within a few days, histoplasmosis can reach a fatality rate of 100% if not treated aggressively and appropriately. Pulmonary histoplasmosis may progress to a systemic infection. Like its pulmonary counterpart, the disseminated infection is related to exposure to soil containing infectious yeast. The disseminated disease progresses more slowly in immunocompetent hosts compared to immunocompromised hosts. However, if the infection is not treated, fatality rates are similar. The pathophysiology for disseminated disease is that once inhaled, Histoplasma yeast are ingested by macrophages. The macrophages travel into the lymphatic system where the disease, if not contained, spreads to different organs in a linear fashion following the lymphatic system and ultimately into the systemic circulation. Once this occurs, a full spectrum of disease is possible. Inside the macrophage, this fungus is contained in a phagosome. It requires thiamine for continued development and growth and will consume systemic thiamine. In immunocompetent hosts, strong cellular immunity, including macrophages, epithelial, and lymphocytes, surround the yeast buds to keep infection localized. Eventually, it will become calcified as granulomatous tissue. In immunocompromised hosts, the organisms disseminate to the reticuloendothelial system, leading to progressive disseminated histoplasmosis. [5] [6]

Symptoms of infection typically begin to show within three to17 days. Immunocompetent individuals often have clinically silent manifestations with no apparent ill effects. The acute phase of infection presents as nonspecific respiratory symptoms, including cough and flu. A chest x-ray is read as normal in 40% to 70% of cases. Chronic infection can resemble tuberculosis with granulomatous changes or cavitation. The disseminated illness can lead to hepatosplenomegaly, adrenal enlargement, and lymphadenopathy. The infected sites usually calcify as they heal. Histoplasmosis is one of the most common causes of mediastinitis. Presentation of the disease may vary as any other organ in the body may be affected by the disseminated infection. [7]

The clinical presentation of the disease has a wide-spectrum presentation which makes diagnosis difficult. The mild pulmonary illness may appear as a flu-like illness. The severe form includes chronic pulmonary manifestation, which may occur in the presence of underlying lung disease. The disseminated form is characterized by the spread of the organism to extrapulmonary sites with proportional findings on imaging or laboratory studies. The Gold standard for establishing the diagnosis of histoplasmosis is through culturing the organism. However, diagnosis can be established by histological analysis of samples containing the organism taken from infected organs. It can be diagnosed by antigen detection in blood or urine, PCR, or enzyme-linked immunosorbent assay. The diagnosis also can be made by testing for antibodies again the fungus. [8]

Pulmonary histoplasmosis in asymptomatic patients is self-resolving and requires no treatment. However, once symptoms develop, such as in our above patient, a decision to treat needs to be made. In mild, tolerable cases, no treatment other than close monitoring is necessary. However, once symptoms progress to moderate or severe or if they are prolonged for greater than four weeks, treatment with itraconazole is indicated. The anticipated duration is 6 to 12 weeks. The patient's response should be monitored with a chest x-ray. Furthermore, observation for recurrence is necessary for several years following the diagnosis. If the illness is determined to be severe or does not respond to itraconazole, amphotericin B should be initiated for a minimum of 2 weeks, but up to 1 year. Cotreatment with methylprednisolone is indicated to improve pulmonary compliance and reduce inflammation, thus improving the work of respiration.

The disseminated disease requires similar systemic antifungal therapy to pulmonary infection. Additionally, procedural intervention may be necessary, depending on the site of dissemination, to include thoracentesis, pericardiocentesis, or abdominocentesis. Ocular involvement requires steroid treatment additions and necessitates ophthalmology consultation. In pericarditis patients, antifungals are contraindicated because the subsequent inflammatory reaction from therapy would worsen pericarditis.

Patients may necessitate intensive care unit placement dependent on their respiratory status, as they may pose a risk for rapid decompensation. Should this occur, respiratory support is necessary, including non-invasive BiPAP or invasive mechanical intubation. Surgical interventions are rarely warranted; however, bronchoscopy is useful as both a diagnostic measure to collect sputum samples from the lung and therapeutic to clear excess secretions from the alveoli. Patients are at risk for developing a coexistent bacterial infection, and appropriate antibiotics should be considered after 2 to 4 months of known infection if symptoms are still present. [9]

Prognosis 

If not treated appropriately and in a timely fashion, the disease can be fatal, and complications will arise, such as recurrent pneumonia leading to respiratory failure, superior vena cava syndrome, fibrosing mediastinitis, pulmonary vessel obstruction leading to pulmonary hypertension and right-sided heart failure, and progressive fibrosis of lymph nodes. Acute pulmonary histoplasmosis usually has a good outcome on symptomatic therapy alone, with 90% of patients being asymptomatic. Disseminated histoplasmosis, if untreated, results in death within 2 to 24 months. Overall, there is a relapse rate of 50% in acute disseminated histoplasmosis. In chronic treatment, however, this relapse rate decreases to 10% to 20%. Death is imminent without treatment.

• Pearls of Wisdom

While illnesses such as pneumonia are more prevalent, it is important to keep in mind that more rare diseases are always possible. Keeping in mind that every infiltrates on a chest X-ray or chest CT is not guaranteed to be simple pneumonia. Key information to remember is that if the patient is not improving under optimal therapy for a condition, the working diagnosis is either wrong or the treatment modality chosen by the physician is wrong and should be adjusted. When this occurs, it is essential to collect a more detailed history and refer the patient for appropriate consultation with a pulmonologist or infectious disease specialist. Doing so, in this case, yielded workup with bronchoalveolar lavage and microscopic evaluation. Microscopy is invaluable for definitively diagnosing a pulmonary consolidation as exemplified here where the results showed small, budding, intracellular yeast in tissue sized 2 to 5 microns that were readily apparent on hematoxylin and eosin staining and minimal, normal flora bacterial growth. 

• Enhancing Healthcare Team Outcomes

This case demonstrates how all interprofessional healthcare team members need to be involved in arriving at a correct diagnosis. Clinicians, specialists, nurses, pharmacists, laboratory technicians all bear responsibility for carrying out the duties pertaining to their particular discipline and sharing any findings with all team members. An incorrect diagnosis will almost inevitably lead to incorrect treatment, so coordinated activity, open communication, and empowerment to voice concerns are all part of the dynamic that needs to drive such cases so patients will attain the best possible outcomes.

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Histoplasma Contributed by Sandeep Sharma, MD

Disclosure: Sandeep Sharma declares no relevant financial relationships with ineligible companies.

Disclosure: Muhammad Hashmi declares no relevant financial relationships with ineligible companies.

Disclosure: Deepa Rawat declares no relevant financial relationships with ineligible companies.

This book is distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) ( http://creativecommons.org/licenses/by-nc-nd/4.0/ ), which permits others to distribute the work, provided that the article is not altered or used commercially. You are not required to obtain permission to distribute this article, provided that you credit the author and journal.

• Cite this Page Sharma S, Hashmi MF, Rawat D. Case Study: 33-Year-Old Female Presents with Chronic SOB and Cough. [Updated 2023 Feb 20]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024 Jan-.

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CASE STUDY 1

Patient A is a man 37 years of age who arrives in the PACU following surgical removal of his gallbladder. Surgical intervention using the laparoscopic approach is successful.

Patient A's airway and ability to maintain respiratory stability are evaluated immediately. His respiration is 16 breaths per minute, and his heart rate is 78 beats per minute. Oxygen is being administered at 2 liters via nasal cannula. A pulse oximeter is placed on his left forefinger, and his oxygen saturation is measured at 95%. The patient is arousable but easily drifts off to sleep.

A transfer of care report on the patient is received from the operating room staff. His operative course was unremarkable. Patient history obtained during the preoperative phase of care showed that he was a 2 pack per day smoker, and he denies taking any prescribed or over-the-counter medications. Patient A's weight is documented as 110 kg.

Further assessment of the patient demonstrates normal skin perfusion with good capillary refill in all extremities. He has a drain in his abdomen with a small amount of yellowish discharge. The wound site and sutures are clean and dry without bleeding or discharge. No Foley catheter is in place; when questioned, he denies the need to void. Completing a head-to-toe assessment shows no other alterations from Patient A's baseline.

Patient A wakes when the second set of vital signs is obtained. He reports that his pain is 6 on a 10-point scale. He states that he has pain in his shoulder and pressure in his abdomen. Morphine (5 mg) is ordered for the pain, and 4 mg is administered IV. His wife is in the waiting room, and she comes into the unit to visit and sits by his bed reading while the patient dozes off.

Repeat vital signs are obtained every 15 minutes for the first hour. At 45 minutes after admission, the patient's oxygen saturation is noted to be 90%. PACU staff suction secretions from the patient's throat, and he is instructed on how to use the incentive spirometer. His oxygen flow is increased to 4 liters/minute by nasal cannula. No change in the patient's oxygen saturation is noted over the next 15 minutes despite compliance with the respiratory exercises.

At one hour after admission, the patient's oxygen saturation remains at 89% to 90%, his respiratory rate is 16 breaths per minute, and he is more difficult to arouse. The nurse notifies the physician of the changes in Patient A's status. Oxygen delivery is changed again to a face mask at 4 liters/minute without improvement in the oxygen saturation level. All other parameters remain stable, demonstrating a readiness for discharge.

Despite the improvement in the patient's status, the oxygenation issue remains worrisome. The patient is admitted for an overnight hospital stay, and respiratory exercises are continued, eventually demonstrating an improvement in oxygen saturation to a high of 94%. The next morning, the patient is discharged home.

The assessment of Patient A was thorough and well-organized. The ABCs were evaluated upon admission to ensure the stability of the patient. The history was ascertained, and vital signs were obtained on the recommended basis. However, despite this excellent care, the patient did not demonstrate adequate improvement in his status to be discharged on the same day.

The patient's history of smoking may be the cause of the respiratory insufficiency. Whether the patient was honest in his assessment of his smoking habit could be debated; many patients do not fully and honestly report their cigarette and/or drug and alcohol use. In addition, the patient may not have reported the feelings of nasal congestion and signs of a developing "cold" to the anesthesiologist prior to surgery. Had this been shared, the surgery may have been postponed. The patient may have been instructed to cut back on cigarette use and wait until the cold symptoms subsided prior to having surgery. When patients underreport or are dishonest during the preoperative phase of care, the staff caring for the patient in the postoperative phase is put at a disadvantage.

CASE STUDY 2

Patient B, a woman 31 years of age, is admitted to phase I PACU after undergoing an abdominal hysterectomy. During the preoperative assessment, the patient noted that she is a nonsmoker, has a history of motion sickness, and is quite anxious concerning the surgery and her future prospects, as she will be "sterile" upon recovery. The report from the operating room is that the patient received inhalation anesthesia and a neuromuscular blocking agent during the procedure. Prior to discontinuing the anesthesia, the patient was administered 4 mg of ondansetron for PONV prophylaxis. Also noted was a period of hypotension caused by a significant amount of blood loss requiring the intraoperative infusion of two units of whole blood.

Upon awakening, Patient B is quite agitated. She is moving from side to side and is not yet oriented to place and time. When questioned, Patient B states that her pain is 7 on a scale of 10. The PACU nurse administers 2 mg hydromorphone IV per order. The narcotic appears to begin to take effect, and when questioned, Patient B's pain is now reported as a score of 4. However, she is now complaining of nausea and asking for an emesis basin as she is afraid she will vomit. The nurse asks her to take slow deep breaths through her mouth and encourages her to relax.

When Patient B's complaints of nausea do not recede, the nurse contacts the physician who orders another dose of ondansetron, which is administered. Thirty minutes after medication administration, the patient's complaints of nausea have not subsided and the nurse again requests an order for an antiemetic. At this point, the physician orders a scopolamine patch be placed on the patient. Subsequent to patch placement, Patient B notes that her nausea is resolving.

Case Study Discussion

Preoperative management of Patient B's nausea was handled well. The staff had ascertained the pertinent information; had a risk factor identification scale been utilized, the patient would have been ranked at a very severe level of risk for PONV. The anesthesiologist recognized this risk and treated Patient B with an appropriate dose of antiemetic prior to the termination of surgery.

There were omissions in care that could have reduced the risk of PONV development in this patient. Prior to the first dose of ondansetron in the operating room, a dose of dexamethasone could have been administered to enhance the effectiveness of the serotonin antagonist.

During the PACU phase of care, the nurse caring for Patient B instituted measures to manage both the patient's pain and nausea. However, there were extenuating circumstances that were not considered and could have reduced the development of this complication. It was noted in the operative report that the patient had an episode of hypotension and blood loss; this volume depletion most likely increased the risk of PONV. In addition, the patient may have remained volume-depleted into the PACU, and no note of this was made.

The physician ordered the second PACU dose of ondansetron, which was administered without benefit. The recommendation for rescue management of PONV is to change drug classes if one is not adequate; thus, another drug should have been ordered. The scopolamine patch seemed to have a beneficial response; upon further questioning of the patient, it was discovered that whenever she had previous bouts of motion sickness the patient used patches to help her manage her symptoms. Had this information been ascertained in the preoperative phase, the patch could have been applied preoperatively or in the operating room. It is critical to gather as much information as possible to reduce these types of delays in patient management.

CASE STUDY 3

Patient C is a high school senior. During the opening drive in the Friday night football game, Patient C is hit from behind. When he falls, he sustains open, comminuted fractures of his left tibia and fibula. Because he is unable to stand, an ambulance is brought onto the field to transport the young player to the hospital for evaluation.

Upon arrival at the emergency department, Patient C's leg is examined, x-rayed, and evaluated by the orthopedic surgeon on call. It is determined that prompt stabilization and cleansing of the wound would be optimal for the best possible outcome; thus, Patient C is prepared for surgery. His parents, who were at the game, arrive in the emergency department just moments after the ambulance and are available to give permission for the operative procedure. As Patient C has been medicated for pain, a history is obtained from the parents. There are no notable problems; Patient C is a healthy young man in excellent physical condition. He has not had previous operations and no previous exposure to anesthesia.

Patient C is transferred to the operating room. The anesthesiologist gives the patient a number of preoperative medications, including those to prevent PONV. The anesthesia of choice is enflurane (Ethrane), a volatile gas. The patient first receives succinylcholine prior to intubation, followed by the anesthetic gas. Within minutes, the anesthesiologist notes that Patient C's carbon dioxide levels are beginning to rise. Just as the surgeon is to begin, the patient sustains a cardiac arrest.

The anesthesiologist immediately stops the insufflation of the gas and begins to administer 100% oxygen. A code response is initiated by the remaining members of the operating team. The rescuer performing chest compressions notes that the patient's skin is warm. While resuscitative efforts continue, blood for laboratory evaluation is obtained. The arterial blood gas results demonstrate a pH of 6.9, partial pressure of oxygen (PaO 2 ) of 110 mm Hg, and a partial pressure of carbon dioxide (PaCO 2 ) of 55 mm Hg. At this point, the anesthesiologist's suspicions are confirmed; the patient is experiencing an episode of malignant hyperthermia.

As soon as the diagnosis is confirmed, the staff is ordered to administer dantrolene at a dose of 2 mg/kg. The operating room personnel contact the PACU to ask for assistance in drawing up and preparing the dantrolene. Only one nurse is available to leave the PACU, and she assists with mixing and administering the dantrolene as soon as it is prepared. Additionally, the patient requires repeat doses of sodium bicarbonate to combat the falling serum pH.

Within 15 minutes of administering the dantrolene, the patient begins to demonstrate a perfusing rhythm, although this is punctuated by frequent runs of premature ventricular contractions. Antiarrhythmics are administered to control cardiac complications.

Simultaneously, the patient is cooled with external cold packs applied to the groin and axilla areas. The leg wound is dressed to prevent further contamination during the resuscitative efforts. Repeat blood is obtained for laboratory analysis. The patient's potassium is elevated, and the patient is started on a glucose-insulin drip.

After the patient's cardiac condition is stabilized, the operating room staff request transfer of the patient to the PACU for further management. The patient is moved, and the PACU staff becomes responsible for managing the patient. The antiarrhythmics, the glucose-insulin drip, and the cooling measures are continued. During the first 30 minutes in the PACU, the patient's urine is noted to be a deep red color, indicative of developing rhabdomyolysis and potential renal failure. The patient is given 100 mg furosemide, and fluids are increased to 150 mL/hour. Within 20 minutes, the urine lightens in color, although it retains a reddish tinge.

Approximately three hours after the first cardiac arrest, the patient suffers a second arrest with the development of ventricular fibrillation. A second code response is called, and the patient is again resuscitated with dantrolene, antiarrhythmics, and sodium bicarbonate. Once again, the patient responds to treatment and regains a perfusing cardiac rhythm.

The patient is ordered to receive dantrolene every 4 hours for the following 48 hours to ensure that another episode of malignant hyperthermia does not develop. The patient is subsequently stabilized and transferred to the ICU, where he remains for 72 hours.

Patient C is a perfect candidate for the development of malignant hyperthermia. He is a young male with well-developed musculature. He has had no previous exposure to anesthesia, so his history was not negative for anesthesia complications; it was incomplete. The onset of cardiac arrest was quite rapid in this patient. This devastating complication can be quick in onset, as demonstrated here, or may be delayed and occur later during the operative procedure. The first indication of the development of malignant hyperthermia in this patient was the rising carbon dioxide level. The skin temperature remained normal during the early phase of development; the first person to note the rise in body temperature was the rescuer performing chest compressions.

The patient was managed appropriately. The staff was required to perform a number of actions to save this patient's life. Administering medications, preparing those medications, cooling the patient, and monitoring blood laboratory values is only part of the picture. The additional PACU nurse pulled to the operating room to help with the resuscitation was instrumental in providing the additional hands and expertise needed in this case.

Upon arrival in the PACU, the patient continued to require extensive stabilization measures. The repeat dantrolene had been ordered but had not yet been administered when the patient sustained the second cardiac arrest. It is imperative that the administration of repeat doses of dantrolene be continued to prevent this type of occurrence. Fortunately, the patient was young and healthy and responded to the treatment.

The long-term outcome for this patient was excellent. The resuscitative efforts were exceptional, and the patient did not sustain any long-term neurologic deficits. It is important to point out that the patient did not have his fracture stabilized at this time. Subsequent surgery was delayed to ensure the stability of the patient. Once stable, the patient had the orthopedic repair performed with epidural anesthesia. Although the risk of developing malignant hyperthermia again while undergoing epidural anesthesia is small, dantrolene was used prophylactically to ensure patient stability throughout the procedure.

CASE STUDY 4

Patient D is a male patient, 32 years of age, undergoing an uncomplicated bowel resection to repair damage and scarring of the bowel secondary to a traumatic automobile accident five years prior. The patient is a healthy, active male who states that he has smoked a pack of cigarettes a day off and on for the last 15 years. He had quit smoking after his auto accident but started again three years previously. His history is unremarkable for cardiovascular disease, and his anesthesia provider has reviewed his previous surgeries, performed at the time of the accident.

During surgery, the patient receives general inhalation anesthesia, intravenous narcotics, and neuromuscular blocking agents. The procedure runs approximately four hours in length. During the procedure, the patient has one short episode of hypotension that was managed with volume replacement.

Upon arrival in the PACU, the patient's vital signs are: blood pressure 118/62 mm Hg, pulse 78 beats per minute, respiratory rate 22 breaths per minute with shallow respirations, temperature 36.5°C, and oxygen saturation 91%. The patient had been extubated in the operating room just prior to transfer to the PACU. The nurse caring for the patient notes the signs and symptoms of respiratory distress, including the high respiratory rate, the shallow respirations, and the low oxygen saturation level. When the patient awakens complaining of pain, the nurse is hesitant to give too large of a dose of the narcotic that had been ordered.

After 30 minutes, the patient's respiratory rate is 18 breaths per minute, the oxygen saturation is 93%, and the patient is more alert. However, the patient continues to complain of ongoing pain, and the nurse leaves the patient's bedside to obtain the narcotics. Upon returning to the patient, the nurse finds the patient dozing. When the patient wakes, the nurse asks him to use the incentive spirometer; he had been instructed in its use in the preoperative phase of care. The patient complains of increasing abdominal pain and refuses to use the spirometer. At this point, the nurse chooses to administer 3 mg of hydromorphone as ordered for pain by the surgeon.

After receiving the hydromorphone, the patient again dozes off and appears to be comfortable. When obtaining the next set of vital signs, the nurse notices that the oxygen saturation has again dropped to 91%; however, as the patient's respiratory effort appears to be adequate, the nurse assumes this low saturation is a consequence of his smoking history. The patient has oxygen supplied by nasal prongs, and the nurse chooses not to intervene further. The patient is left sleeping while the nurse assists in the admission of another patient to the PACU.

Forty-five minutes after arrival in the PACU, Patient D experiences a respiratory arrest. The nurses immediately call a code and initiate resuscitative measures. The patient is administered naloxone, and positive pressure ventilation is initiated. However, bagging the patient is extremely difficult; the pop-off valve goes off with each ventilation, and the patient's chest is not rising as hoped.

Fortunately, the anesthesia provider responds and immediately asks for an endotracheal tube to reintubate the patient. When attempting to intubate the patient, the anesthesia provider finds it very difficult as a result of the patient developing laryngospasm. Succinylcholine is administered, and high positive-pressure oxygen is given via a jet vent. After another two attempts, the patient is successfully intubated. The patient is then placed on a mechanical ventilator with positive-end-expiratory pressure applied to help reduce the buildup of fluid in the lungs. He is started on a course of antibiotics and steroids and admitted to the ICU. After two days, the patient is extubated, moved to the surgical floor, and at day 6, is discharged from the hospital.

Patient D is a typical postoperative patient. He was healthy and had an uncomplicated surgical event. He should have progressed through the recovery period without a problem; however, he sustained a respiratory arrest and his recovery was prolonged. Fortunately, he survived without long-term sequelae.

The nurse caring for Patient D made assumptions about his condition based upon his preoperative history. The smoking history allowed her to be lulled into a sense of security knowing that smokers have altered oxygen saturations. His appearance of ease was comforting, and she became complacent in her vigilance.

When Patient D sustained the respiratory arrest, the initial cause was unknown. He had numerous risk factors; the arrest may have been caused by the dose of narcotics, in which case, naloxone would have been a treatment of choice. This was tried but without a successful response. He was hypoxemic upon arrival in the PACU, as evidenced by his low oxygen saturations. This hypoxemic state may have precipitated the respiratory arrest. In addition, he had received neuromuscular blocking agents in the operating room and the arrest may have been secondary to residual paralytic agent. However, upon intubation he was noted to have developed laryngospasm, which may indicate that he sustained an episode of NCPE. He was a candidate for NCPE due to his age, preoperative health status, and early extubation.

Whenever a patient sustains a life-threatening event such as a respiratory arrest, it is critical that care providers work to determine the cause. Identification of the cause can lead to the appropriate choice of a resuscitative effort. In this case, the nurse acted appropriately in administering the naloxone, although it was later determined that this was not the cause of the arrest. Despite the fact that NCPE was not considered until the patient was found to have a laryngospasm, the measures undertaken were appropriate. The only error was the complacency that the nurse exhibited towards the patient's status upon arrival in the PACU and the first 45 minutes of care. Early attention to the hypoxemic state may have prevented the development of the arrest, although this does not always make a difference in cases of NCPE.

Patient D should be educated prior to discharge regarding the development of this side effect. If further surgeries are needed, it is imperative that he be able to relate this information so that measures can be instituted to reduce the risk of respiratory compromise.

CASE STUDY 5

Patient E, a man 74 years of age, is undergoing surgery for a blockage in his left femoral artery. The patient has a history of significant vascular compromise of his left leg secondary to the blockage. A stent is placed during surgery, and the patient is subsequently transferred to the PACU. Upon arrival in the PACU, his vital signs are: blood pressure 162/86 mm Hg, pulse 80 beats per minute, respiratory rate 16 breaths per minute, core temperature 34.5°C, and oxygen saturation 90%. The patient was extubated prior to arrival in the PACU. After the patient is stabilized and an assessment is completed, he is warmed using a warm air convection device. To combat his low oxygen saturations, his oxygen flow is increased to 6 liters per nasal cannula.

Fifteen minutes after arrival, the patient complains of severe pain in his left leg. His peripheral pulses are good, and his color is pink. However, as this was the surgical site, the nurse immediately contacts the surgeon. The surgeon speculates that the pain is secondary to new perfusion in this leg and the removal of sequestered by-products of circulation. He orders the patient to receive 3 mg hydromorphone for pain, which helps resolve the patient's complaints.

One hour after admission, the patient's vital signs return to preoperative values; his body temperature is now 36°C. At this point, he complains of pain in both lower extremities. Upon assessment, it is found that his peripheral pulses are weak in the right leg and the color of this extremity is dusky and cool to touch. His left leg remains warm, pink, and with good peripheral pulses. The patient's legs are elevated on a pillow to improve blood return to the heart, and he is again administered hydromorphone. After the second dose of hydromorphone, the patient drifts off to sleep. When he wakes, he continues to complain of pain in both extremities. The right leg remains cool, dusky, and with poor peripheral perfusion. The nurse again contacts the surgeon, who determines that the patient is possibly developing a DVT in the right calf. The patient has graduated compression stockings applied to the right leg to reduce the risk of further clot formation. As the patient had been heparinized in the operating room, no further anticoagulants are ordered.

The patient is discharged from the PACU to the surgical ward. At day 3, when he is ambulating in the hall, Patient E suffers a cardiac arrest and is not able to be resuscitated. He most likely sustained a pulmonary embolus secondary to the DVT in the right leg. The ambulation may have caused the clot to be knocked loose, allowing it to travel to the pulmonary vasculature.

This patient was at high risk for DVT formation both due to the type and extent of surgery as well as his history of peripheral vascular disease. As he was anticoagulated in the operating room, no further interventions were instituted. However, the guidelines for management and prophylaxis of this type of patient recommend the institution of graduated compression stockings or intermittent pneumatic compression devices in addition to anticoagulation [50] . It can be speculated that this may have reduced his incidence of DVT formation; however, due to his extensive vascular history, he was at high risk prior to, during, and after surgery. It would be speculation to determine if this event may have been preventable.

The nurse caring for the patient performed her job according to policy. The only change that may have been recommended is the placement of the graduated compression stockings on the right leg prior to surgery or after the patient was stabilized in the PACU.

CASE STUDY 6

Patient F, a woman 47 years of age, has sustained a comminuted fracture of her left tibia and fibula after falling on wet grass. Patient F is transferred to the emergency department, where the determination is made to take her to the operating room for internal fixation and subsequent casting.

Following surgery, Patient F is admitted to the PACU with a cast on her left leg. The leg is elevated on top of pillows to ensure adequate drainage. Upon awakening, the patient complains of pain of 9 on a 10-point scale. She is medicated with hydromorphone and falls back to sleep. Forty-five minutes later, she again complains of continued pain. At this point, she receives 3 mg of intravenous morphine. While reviewing the patient's chart and medication orders, the PACU nurse discovers that the patient has a history of frequent narcotic use and is labeled a "complainer" who is frequently seen in the emergency department or physician's office with vague complaints of pain and requests for refills of her narcotics.

After two hours in the PACU, the patient is transferred to the orthopedic floor for continued recovery. Other than her complaints of pain, her PACU stay is uneventful. When giving report to the nurses on the floor, the PACU nurse relays her findings regarding the patient's complaints of pain and repeat requests for pain medications.

During the remainder of the day and into the evening shift, the patient is monitored every four hours. She is medicated as ordered, but within one to two hours after receiving her medications she calls the nurse for additional analgesia. She continues to complain of pain, stating that she feels a burning sensation in her left leg. Her cast is checked and appears to be intact, without peripheral swelling of her leg, and peripheral pulses are present but weak.

At midnight, the patient calls the nurse with continued complaints of pain. The nurse notes that the cast is tight; the patient is no longer keeping it elevated as instructed. The orthopedist on call is contacted, and the decision is made over the telephone to bivalve the patient's cast to ensure adequate circulation. This is accomplished, and the patient appears more comfortable, although her reported pain score remains at 6.

The following morning the patient is seen by the orthopedic surgeon, who notes the bivalved cast and continued complaints of pain. The surgeon orders the cast to be replaced, which is accomplished. That evening the patient again complains of pain, this time giving a score report of 10. The physician is again contacted by telephone, and additional pain medications are ordered. Throughout the night, the patient continues to complain of pain despite frequent doses of narcotics.

The patient is scheduled for discharge in the morning. When seen by the surgeon prior to discharge, it is noted that the patient's foot is cool to touch and peripheral pulses remain weak. She has continued complaints of pain and does not want to be discharged at this time. At this point, the surgeon considers the possibility that the patient may be developing a case of compartment syndrome. The cast is removed, and the extremity is tense and cool, with poor color. The patient is immediately taken to the operating room, where a fasciotomy was performed. Upon opening the compartment, it is noted that there is extensive necrotic tissue that requires debridement. The remaining amount of muscle is minimal. The patient eventually recovers but with severe disability in her ambulatory capabilities.

This patient sustained a long-term disability secondary to rapidly developing compartment syndrome. As discussed, rapid assessment and intervention is required to prevent this type of sequelae. The classic sign of compartment syndrome is pain that is out of proportion to the injury. This patient had continued complaints of pain; however, due to her history as someone who was always complaining of pain, her complaints were not taken seriously. All patient complaints should be addressed and believed; the lack of attention to these complaints led to a long-term disability in this patient.

Compartment syndrome is a common complication following fracture, and the possibility of this complication should have been recognized earlier. In fact, the first evening, when the first cast was bivalved, compartment syndrome should have been considered. It was more than 36 hours before the diagnosis of compartment syndrome was made, enough time for severe tissue necrosis to develop. Had the patient undergone a fasciotomy rather than bivalving the cast, the outcome may have been different.

This case demonstrates the need for prompt recognition of patient's complaints and consideration of all potential complications, regardless of the patient's previous history. The nurses and physicians in this case neglected the patient's pain complaints because of her prior history. The patient should have been given the benefit of the doubt, which may have allowed for earlier intervention.

This case subsequently went to litigation. The physicians involved in her care admitted to malpractice in neglecting to recognize and diagnose the development of the compartment syndrome earlier in her care when the potential for complications may have been decreased. The nurses admitted to malpractice as they chose to disregard the patient's complaints when further investigation should have been undertaken. It is a sad outcome, especially as it was a preventable complication.

CASE STUDY 7

Patient G is a man, 83 years of age, who is undergoing colon resection for removal of cancerous nodes. The operative procedure proceeds without complication, and the patient is transferred to the PACU without incident.

During the first postoperative hour, the patient is noted to be hypotensive, with a systolic blood pressure of 80 mm Hg. A review of the patient's history indicates that his normal systolic pressure on admission was 160 mm Hg. The patient is noted to take furosemide, hydrochloride thiazide, metoprolol, and lisinopril for blood pressure control. With this information in mind, it is obvious that the patient's systolic pressure is significantly lower than anticipated.

Upon awakening, the patient is confused and disoriented. He needs continual reminders to help orient to person, place, and time. He is not compliant with postoperative instructions and tries to remove the dressing from his abdomen. He complains of pain when asked but is not able to rate the pain on a scale of 1 to 10. He requires wrist restraints to prevent him from disrupting the surgical site.

The patient is also noted to have a history of congestive heart failure following a myocardial infarction many years ago. While fluid resuscitation would be the first step in supporting the patient's blood pressure, the risk of developing further cardiac failure should be considered. Prior to instituting further management, the patient's history and medication use is reviewed.

The patient stated upon admission that he had been NPO after midnight, as instructed. He was told to take his medications in the morning with a small sip of water prior to arriving at the hospital, to which he complied. His wife told the nurses that he did not eat the food recommended on his bowel prep program the evening before surgery; he was anxious and wanted to ensure that his colon had been cleaned out sufficiently. His wife also noted that he had complied with the bowel prep cleansing as instructed.

The patient is administered additional intravenous fluids at a rate of 75 mL/hour. He is finally discharged from the PACU five hours after surgery and transferred to the surgical ward. On the surgical ward, his blood pressure remains low, with an average systolic pressure of 90–100 mm Hg. The patient is discharged on day 3 with a blood pressure of 102/86 mm Hg.

This case presents the typical complication of under-resuscitation and subsequent volume depletion. The patient's response to this complication was the development of a prolonged hypotensive episode, complicated by confusion and disorientation upon awakening.

Further history should have been ascertained from the patient and the patient's wife prior to surgery. The staff was unaware that the patient had been NPO for such a length of time. When asked if he complied with the bowel cleansing as ordered, the patient replied yes; no further questions were asked to ensure how he complied, when he last ate, etc. This assumption increased the risk of compromise.

In addition, the patient took his normal blood pressure control medications prior to surgery. While holding of these medications is often done on the day of surgery, the nurses needed to recognize the potential risk this offered. Ensuring adequate resuscitation and volume status in the preoperative and operative phases of care should have been instituted.

Anesthetic agents are vasodilators. This combined with the administration of blood pressure reducing agents caused a significant drop in the patient's systolic pressure. The patient's systolic pressure remained low even at the time of discharge; it is critical to alert this patient to this development and ensure that the patient follow up with either the surgeon or the cardiologist. As the drugs cleared from the patient's body, the normal systolic pressure should have been achieved.

The confusion and disorientation that developed in the PACU was most likely a consequence of low perfusion pressure within the cranial cavity of this patient. There are several reasons for postoperative confusion in the elderly; those reasons should be identified and treated. In this case, had the patient received fluid resuscitation earlier in the course of care, this neurologic development may have been avoided.

Managing an elderly patient with a history of multiple disease processes, medication use, and anesthetic administration is challenging. Further in-depth evaluation and history taking is critical to ensure safe care delivery throughout the operative period.

CASE STUDY 8

Patient H, a man 34 years of age, is admitted to the PACU following abdominal surgery for colitis. In the operating room, the patient's disease was found to be extensive, and he now has an ileostomy for stool drainage. He had a large mid-line incision reaching from the pubis to the distal sternum.

Upon admission, his vital signs are: blood pressure 102/60 mm Hg, pulse 72 beats per minute, respiratory rate 16 breaths per minute, oxygen saturation 94%, and core temperature 35°C. He is somnolent but opens his eyes upon repeated commands. The formation of the stoma was discussed with the patient prior to surgery as a last choice option; however, he was unaware at that point in his care of the extent of his disease and the need for the ileostomy.

After 15 minutes, the repeat vital signs are unchanged except for the blood pressure, which is 90/58 mm Hg. His body temperature remains at 35°C. Measures to rewarm the patient are undertaken. He continues to sleep, although he is arousable. After 30 minutes, the patient's blood pressure drops to 84/48 mm Hg. It is also noted that urine output is only 5–10 mL of dark yellow urine in the Foley catheter tubing. The physician is notified, and she orders a fluid challenge of 100 mL.

After the fluid challenge, the patient's blood pressure rises to 92/60 mm Hg. Although this is below baseline, it does show improvement. However, urine output remains the same; there is no recognizable response to this fluid challenge. The ostomy drainage does increase and is measured at 100 mL of very light yellow liquid.

Two hours after admission, the patient remains in the PACU. His core body temperature remains low, and his blood pressure is below baseline. Little urine output has been noted, but ostomy output is at 250 mL since surgery. Bowel tones are heard as high-pitched squeaks. Additionally, the patient remains significantly sleepy and slow to respond to commands.

After three hours, the patient is transferred to the surgical inpatient unit. His blood pressure is 98/60 mm Hg, pulse 70 beats per minute, respiratory rate 16 breaths per minute, core body temperature 35°C, and oxygen saturation 96%. Urine output totals 30 mL since the end of surgery; ostomy drainage totals 350 mL. The patient is arousable but sleeping when not stimulated.

That same evening, approximately seven hours after surgery, the patient is awake and complaining of severe abdominal pain. His abdomen is distended; ostomy drainage now measures an additional 300 mL, and urine output is 150 mL. The surgeon is notified, and the patient is evaluated. At this point, the surgeon speculates that there may be leakage at the stoma site. The patient is prepped for the operating room for further evaluation.

While waiting for the surgical team to arrive, the patient begins passing a significant amount of gas into the ostomy bag. The amount of drainage remains high, but with the passing of the gas the distension begins to resolve and the patient notes that his pain has diminished. It is determined that the surgery will be delayed pending resolution of the abdominal distension.

The patient remains in the hospital for another four days. He receives instructions on how to manage his stoma and ostomy. His stoma drainage remains high for the first two days. He tries solid foods on day 3 but develops severe abdominal cramping and distension yet again. His diet is changed to soft foods, and over the course of the next week, he is eventually able to tolerate a normal diet.

This patient was admitted following an extensive abdominal procedure. Upon arrival in the PACU, his core body temperature was low; however, this is common in patients undergoing an open abdominal procedure of extended length. The only error in care was the delay in beginning to warm the patient. Rewarming measures, using forced air warming, should be the standard of practice for this type of patient.

The patient developed hypovolemia, as evidenced by his low blood pressure. This period of decreased circulating volume could have potentiated the risk of subsequent ileus formation. The fluid challenge of 100 mL was ordered without awareness of the ostomy output. This output should be included in the volume assessment of the patient prior to reporting his vital signs. Most likely, a large fluid challenge would have benefited the patient and could have helped to prevent the ileus formation.

When the patient complained of severe pain while in the nursing unit, it was appropriate to consider the risk of failure of the stoma sutures. This is not an uncommon complication in this type of surgery, especially with the distended abdomen. However, the patient required a more detailed evaluation prior to being prepped for surgery. Ileus formation was not considered because the patient had audible bowel tones. While most patients with postoperative ileus do not exhibit bowel tones, these tones are not uncommon for patients with a stoma and significant changes in their GI tract. One procedure that may be beneficial for these patients is the insertion of a tube into the stoma. However, with the concern of disruption of the sutures, this was not an appropriate course of action for Patient H and was not performed.

While the patient did exhibit postoperative complications, the development was not unexpected. The assessment of the patient could have been better; assessing the intake and output beginning before surgery may have alerted the staff to the hypovolemic state. If this had been recognized and treated earlier, the ileus formation may have been averted. However, it is not uncommon for this patient type to develop an ileus, so it is difficult to determine whether it was a controllable complication. The patient's ultimate outcome was not affected by these complications, but his recovery period could have been more comfortable and without risk had certain assessment parameters been monitored more closely.

CASE STUDY 9

Patient I is a girl, 5 years of age, undergoing a surgical intervention to correct a congenital cleft lip and palate. She is small for her age and has had multiple difficulties with food intake. During the first year of life, it was nearly impossible for her to suck either at the nipple or on a bottle due to the shape and size of the defect. Despite multiple attempts and alternative methods of feeding, her growth has been slowed due to malnourishment. As she became able to ingest solid foods, she had difficulty with swallowing and had multiple bouts of sinus infections due to food particles being forced into the open sinuses.

In the preoperative phase of care, Patient I is noted to be quite anxious, crying in her mother's arms and shying away from the caregivers. She does not want an IV line started and throws a tantrum when this is attempted. Despite her young age, she is well aware of the multitude of interventions that occur in a hospital setting and she is determined to maintain some control over these developments. Her mother comforts her and does not appear to have much control over Patient I's behavior.

The corrective repair progresses without complication, although the surgery is long, more than six hours in length. When Patient I is transferred to the PACU, she is intubated and asleep. The surgeons do not want her to awaken abruptly and risk dislodgement of the endotracheal tube and/or damage to the surgical site. Her vital signs are stable compared to those obtained during the preoperative phase of care. She has an IV line in her right forearm, a Foley catheter, and cardiac monitoring electrodes on her chest, along with the endotracheal tube.

After Patient I is stabilized in the PACU, her mother is allowed in to see her and sit at the bedside. The mother is instructed to watch the patient and notify the nurses if she starts to awaken and reach for the tubes. The mother is overwhelmed by the change in her daughter's appearance, something she has dreamed about for the last five years.

After 30 minutes in the PACU, Patient I begins to move in bed. Her eyes remain closed but she appears to be awakening and somewhat agitated. The orders are to administer narcotics to the patient for pain; however, the patient is unable to use any type of pain scale due to the decrease in cognition. The mother is holding the child's hand when the child pulls her hand away and starts to reach for her mouth. The nurse sees this happening and is able to grasp the child's wrist and prevent her from reaching the tube and surgical site. Wrist restraints are applied to ensure that the patient is not able to repeat this potentially life-threatening action.

At 60 minutes, the patient begins to open her eyes and starts to move from side to side. She is pulling against the restraints and trying to sit up so she can reach the endotracheal tube to remove it. The nurse instructs the patient that she must lie still and that the tube must remain in place. The nurse attempts to use an illustrated pain scale, but the patient refuses to cooperate, continuing to pull at the restraints.

During this combative period, the patient's blood pressure and pulse rate continue to rise and blood is noted on the dressing around her mouth. It is imperative that something be done to reduce the risk of damage; the nurse decides to medicate the patient with the narcotic ordered to help control the agitation and allow the child to relax and perhaps fall asleep. This objective is achieved, and the patient falls asleep and appears relaxed. Her vital signs again return to preoperative values.

Ninety minutes after surgery, the surgeon enters the PACU to examine the patient. While touching the patient's dressing, the patient's eyes open; she grasps the hand of the surgeon and tries to grasp the endotracheal tube. She is shaking her head violently from side to side, and the dressing on her face begins to loosen. The physician yells for assistance, and the nurse holds the head of the child still so the tube and dressing can be re-stabilized and secured. The look in the eyes of the child is one of pure terror. By now the only way the patient is able to lash out is to kick her legs, and she is thrashing about in the bed. Her mother is trying to calm her, but the child does not appear to recognize her mother or at least does not respond to the mother's efforts.

The surgeon orders a dose of midazolam in an effort to calm the child and ensure the safety of the tube and surgical site. After administration, the child does calm down and is no longer struggling; however, she does not appear to fall asleep. She continues to have a very scared look in her eyes, and she does not appear to be fully aware of what is going on around her. Within 20 minutes, the child is dozing quietly and appears to be much more comfortable.

Two hours after surgery, the patient again awakens and is calm and cooperative. She is responding to her mother and is receiving comfort from her mother's presence. She is again instructed as to the need for the restraints and is not pulling against them. She tries to talk and begins coughing against the endotracheal tube. The surgeon has ordered that the patient remain intubated for at least the first 48 hours post-surgery to ensure adequate time for the wound healing to begin. This is going to be a challenge with this patient as she is trying continually to either remove or talk around the tube.

The patient is stable at three hours and is transferred to the ICU, as she remains intubated. Report is given to the staff. While the patient is being moved to the ICU bed and her hands are free, she grabs the endotracheal tube and pulls. Fortunately, she is prevented from removing the tube, although the tube is checked to ensure proper placement. At 48 hours, she is extubated and transferred to the pediatric floor. Within four days she is discharged home without further complication.

This child presents a number of challenges to the PACU staff. Airway management is always the first step in stabilizing a patient who has arrived from the operating suite, and this patient did have a secure airway at the time of transfer. The concern developed when the patient began to awaken and tried to remove the tube. Had she been successful at pulling the tube, this could have been a life-threatening complication. Attempting to mask ventilate the child would be challenging with the surgical repair site preventing the achievement of a good seal with the mask. Re-intubation would have to be performed with extreme caution to prevent damage to the surgical repair.

The child was initially stable, and the recovery appeared to be without incident. However, after the child started to awaken she demonstrated many of the signs of emergence delirium, which is more common in children than adults. She was thrashing about, pulling on her restraints, and uncooperative with instructions. Her mother did not appear to be able to calm her, indicating the possibility that she was disoriented and confused.

While the nurse was aware of the need to protect the child, she chose to administer the narcotics as ordered rather than receive an order for a different medication. It may have been that the narcotic was the right choice; the patient could have been in pain, although this was not assessed due to her behavior. On the other hand, the narcotic could have caused the second bout of combativeness noted upon the surgeon's arrival. When the patient was able to grasp the endotracheal tube, it was determined that the mother had released the restraint while holding her daughter's hand. This could have been another life-threatening complication; the nurse needed to not only ensure that the mother understood the need for the restraints but also check for proper placement of the restraints when her vital signs were obtained.

Midazolam was the drug that was able to allow the child to fall asleep and awaken in a more controlled state. Although midazolam may be a cause of emergence delirium and confusion in children, it is also one of the first drugs considered in its management. For this patient, it was the right drug, although the right time may have been during the first episode of combativeness. Not all children must be medicated; however, with the risks of tube dislodgement and surgical site disruption being quite high in this child, the administration of midazolam in the earlier phase of care may have been a better choice.

This case demonstrates the multitude of issues in dealing with pediatric patients. Although patients are educated prior to the surgical intervention, this education is not fully understood and the child may not follow instructions as directed. The mother was an excellent source of comfort to her child but also put her child at huge risk by untying the restraints. Parents should have continual reminders of their place in the care of their child.

The risk of postextubation croup was not addressed but could have presented a significant challenge to this patient either in the ICU or once on the pediatric unit. The risk of this form of croup increases when the patient has remained intubated for a length of time and/or when the child fights against the tube, both risk factors in this case. Fortunately, this did not occur and the patient was eventually discharged without further incident.

Children present challenges regularly in the PACU. Their risk of compromise is greater, and the complications are different. Astute care will allow for safe recovery during this period.

CASE STUDY 10

Patient J is a man, 87 years of age, undergoing surgical repair of a fractured hip. He was living at home independently when he slipped and fell in the bathroom, fracturing his right femoral neck. He was on the floor for an indeterminate amount of time prior to being found by a neighbor who checked on him when he had not been seen for a number of hours. Emergency service personnel were called. They found the patient on the bathroom floor in a confused state. He was unable to accurately note the date or time, and he had no recollection of how he ended up on the floor. During the head-to-toe assessment, it was noted that Patient J had sustained a small scalp laceration over his right temporal region, which was clotted by the time the ambulance personnel arrived. His leg was in a displaced position, and a fractured hip was suspected. He was also noted to have a healed scar on his sternum, indicative of a previous open-heart procedure.

Upon arrival in the emergency department, the patient is evaluated by orthopedic, cardiology, and neurology specialists. His history is reviewed and reveals a previous open-heart procedure eight years prior to admission, a long history of smoking prior to the cardiac procedure, and a history of lifelong obesity. The patient's skin condition is poor; he has multiple bruises in varying stages of healing. He has multiple folds of fatty skin, and between these folds, the skin is quite dirty and foul smelling, indicating a poor hygienic state. He has a list of medications in his wallet, which identifies the following drugs: digoxin, simvastatin, furosemide, potassium chloride, amlodipine, and lisinopril. Due to his current state of confusion, the accuracy of this list and the last time the patient took his prescribed medications are unable to be determined.

Patient J's greatest immediate need is stabilization of the fractured femur. The neurologist deems that it is appropriate to perform the surgery under general anesthesia and that postoperative neurologic assessment should be initiated. The cardiologist agrees that the patient is stable from a cardiac standpoint and that he will most likely be able to tolerate the effects of anesthesia. The orthopedic surgeon performs the fractured hip repair.

Upon transfer to the PACU, the patient is still asleep; he was extubated in the operating room, has a cardiac monitor on and a Foley catheter in place, and his hip is positioned for optimum healing. His vital signs are: blood pressure 162/100 mm Hg, pulse 80 beats per minute, respiratory rate 22 breaths per minute, oxygen saturation 89% on 4 liters nasal prongs, and core temperature 34.5°C. No urine is noted in the Foley catheter. The greatest initial concern is the lower oxygen saturation; the nasal prongs are replaced by a face mask at a flow rate of 6 liters per minute. Within 15 minutes of switching the oxygen delivery device, the oxygen saturation increases to 91%.

Thirty minutes after arrival in the PACU, the patient remains asleep. His vital signs are stable; however, his body temperature remains at 35°C despite forced air warming. He is not moving nor does he appear to be in any discomfort. His skin condition does not appear to have improved. His lower extremities are cool to touch, and peripheral perfusion is poor.

At approximately 40 minutes after arrival in the PACU, the patient sustains a cardiac arrest. Resuscitation efforts continue for approximately 20 minutes without success, and the physician in charge pronounces the patient dead.

This patient is representative of the typical postoperative geriatric patient. He has multiple health issues and takes many medications. His physical status is compromised by his nutritional status, in this case, obesity. He was living independently prior to this event; he did not have family close by, and his history was only ascertained by the information that his neighbor and the first care responders were able to locate. Even with that, the accuracy of this information was questioned. Prior to the fall, the patient had been happily living his life, which was subsequently lost after the surgery.

After the patient was pronounced dead, it was speculated that he had developed a clot that occluded his pulmonary vasculature. If this was indeed the case, the outcome would not have changed despite the resuscitation efforts. However, due to his advanced age and condition, a postmortem exam was not performed and the cause of death was never confirmed.

The patient's condition was compromised by numerous factors. He had a positive cardiac and smoking history and may have sustained a neurologic event at the time of the fall, or a neurologic event may have precipitated the fall. His obesity presented a number of issues. His skin condition was quite poor, and his apparent lack of hygiene would increase his risk of postoperative infection. While he was considered to be independent, his current health state was definitely not optimal.

Had this patient survived, in all likelihood, he would not have been able to return to an independent living environment. He would have required care in a rehabilitation facility to learn to ambulate post-surgery. Whether he would be strong enough to recover to a fully independent state was questionable.

This case demonstrates the many issues and challenges in managing the elderly patient. The lack of concrete information in the preoperative stage can impact the decisions that are made in the operating suite. Patient J's poor health status put him at increased risk for complication development. Even if the patient had survived, his long-term outcome would have been significantly different than the lifestyle he had prior to the injury. Preparing the patient and family for these less-than-optimum outcomes should be considered part of the preoperative care measures.

CASE STUDY 11

Patient K is a woman, 42 years of age, who weighs 432 pounds. She has a BMI of 62 and is scheduled to undergo a restrictive bariatric procedure. Her history is positive for hypertension, diabetes controlled with two to three insulin injections daily, gastroesophageal reflux disease, and obstructive sleep apnea. She is nervous prior to surgery, yet anxiously awaiting the new life that she sees in her future.

The operative course of care is unremarkable. The patient has a gastric band placed, creating a small pouch. She is transferred to the PACU having been extubated. Her vital signs upon admission are: blood pressure 182/112 mm Hg, pulse 82 beats per minute, respiratory rate 24 breaths per minute, core temperature 35°C, and oxygen saturation 91%. She remains very somnolent but opens her eyes with loud verbal stimulus.

Upon admission, the concern for this patient is the low oxygen saturation. She maintained a saturation of 94% during the procedure but the postoperative saturation remains 90% to 91%. Oxygen is being delivered by nasal cannula at 4 liters/minute. The nurse caring for the patient is unsuccessful at awakening her for more than a few seconds. The oxygen delivery system is changed to a face mask with a liter flow of 6 liters/minute. Little improvement in the patient's status is seen with this change.

It would be optimal to awaken the patient to have her participate in respiratory exercises; however, she remains quite sleepy while in the unit. Elevating the head of the bed may help her oxygenation but does little to increase her oxygen saturation values. Arterial blood gas analysis is obtained; the results are pH of 7.34, PaO 2 of 74, and PaCO 2 of 47. With these results it is obvious that the patient is hypoventilating, most likely secondary to pressure on the diaphragm limiting her respiratory excursion effort.

The patient remains somnolent for the next four hours. Her oxygen saturation values remain around 91% despite the efforts of the staff. After four hours in the PACU, she is transferred to the inpatient unit for an overnight stay. She remains hypoxic until the following afternoon.

The patient in this case study demonstrated one of the more common complications following bariatric surgery: hypoventilation. The upward displacement of Patient K's diaphragm prevented full expansion of her lungs, causing carbon dioxide levels to rise while oxygenation values remained low. Although the levels were low, they were not to the point of being life-threatening.

One measure that may be used to improve oxygenation in patients following surgery is respiratory exercises to help expand the lungs and encourage the patient to expel secretions. To accomplish this goal, the patient should be cooperative and have an appropriate cognitive level to follow the commands. As this patient remained somnolent for a lengthy period, efforts at obtaining her cooperation were unsuccessful. It is not uncommon for obese patients to experience a delay in awakening following anesthesia. The drugs are absorbed into the fatty tissue, and release occurs over an extended period. One measure that may have been successful in arousing the patient more quickly is a fluid challenge. This extra fluid can often help circulate the remaining anesthetic and speed the metabolism of the medication, allowing the patient to awaken more quickly. While this may not always be the answer to delayed awakening, it is often successful in obese patients.

Fortunately, this patient did not experience any of the other postoperative complications that are common following bariatric surgery. After her respiratory status improved, she was able to meet the criteria for discharge and was sent home the next day.

In follow-up with this patient, she lost more than 100 pounds in the first year following surgery. She started an exercise regimen and is determined to continue with her weight loss. While 100 pounds is quite a bit of weight to lose, her weight is now 330 pounds; therefore, she remains at risk for the complications of obesity. Her diabetes has not resolved, yet she remains hopeful that with continued weight loss, she will one day be free of insulin injections. Morbidly obese patients have a long and often arduous path ahead of them and should not expect miracles to happen overnight.

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Vol 9, No 1 (2023)

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Case Studies in Surgery  ISSN 2377-7311(Print)  ISSN 2377-732X(Online)

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