On September 18, 1981, at a farm in Mohawk, New York, a 39 year old farm hand was overcome while climbing up the chute of a recently filled concrete stave silo and was taken to the emergency room. In the preceding 10 days, the farm owner had filled this silo with Sudex grass and chopped corn silage. On September 18, he asked the farmhand to climb up the unloading chute inside the silo and toss out fresh silage. When the farmhand climbed the chute, he became short of breath and confused and had to descend. No obvious cause for his trouble (no excessive heat, strange odors, etc.) was noted, so he made a second attempt but again had to climb down and was noted to be cyanotic, pale, and diaphoretic.
Question 1 - Single Best Answer
Cyanotic and diaphoretic mean?
Blue and sweaty. Yellow and hot. Blue and gasping for breath. Gasping for air and bleeding from both nostrils. Having a desperate need to escape an certain environment.
Question 2 - Single Best Answer
The significance of cyanosis is? Bugs Database
He had a fever. He was having an allergic reaction. He wasn't getting enough oxygen. He was hemorrhaging.
Question 3 - Single Best Answer
The significance of his sweating, in the absence of excessive environmental heat, is? Bugs Database
he had a fever. he had an infection. he was going into shock. he had just returned from a heavy exercise session. he is in poor shape.
At a local hospital, the examining physician noted cyanosis and respiratory distress; blood pressure of 84/60; pulse, 128; respiration, 32; and temperature, 37.5 C. Normal Lab Values
Question 4 - Single Best Answer
Which, if any, of these values is normal? Bugs Database
blood pressure pulse respiration temperature all of the above
The patient had wheezes and crackles on auscultation of his chest, but no signs of consolidation; after asthma was diagnosed, he was treated with epinephrine, intravenous aminophylline, and steroids.
Question 5 - Single Best Answer
What do you think led to the diagnosis of asthma? Bugs Database
the acute onset. the lack of fever the wheezes and crackles lack of consolidation more than one of the above
White blood count was 21,000; hematocrit, 57.8%; and hemoglobin, 18.6 gm. Arterial blood gas examination while on 2 liters/min of nasal oxygen showed pH 7.35; PaCO2, 32mm Hg; PaO 45 mm Hg. An electrocardiogram showed a sinus tachycardia, and a plain chest radiograph disclosed extensive fluffy bilateral infiltrates.Normal Lab Values
Question 6 - Single Best Answer
The white cell count was? Bugs Database
normal high low
Question 7 - Single Best Answer
The hematocrit and hemoglobin were? Bugs Database
Question 8 - Single Best Answer
Taken together, these two results, white count and hematocrit, show? Bugs Database
a hemorrhage was occurring the patient's volume of blood was contracted, leading to a concentration of both red and white cells. the patient had an infection. anemia
Question 9 - Single Best Answer
The blood gases were? Bugs Database
Normal PaCO2 was low and PaO was high PaO was low and PaCO2 was high Both were high Both were low
Question 10 - Single Best Answer
The electrocardiogram (sinus tachycardia) and chest x-ray (fluffy bilateral infiltrates) showed? Bugs Database
a heart attack due to a ruptured blood vessel in the lung. a rapid heart beat likely due to fluid in the lungs. signs pathognomonic of tuberculosis. a tension pneumothorax. a brain tumor
Question 11 - Single Best Answer
The patient's respiratory distress and dangerously low blood oxygen concentration were due to? Bugs Database
constricted bronchioles a hemorrhage in the lungs resulting in a fluid build up. fluid filled lungs a pseudomembrane in the trachea carbon monoxide poisoning
Question 12 - Single Best Answer
The fluid filling the lungs was? Bugs Database
whole blood blood plasma water due to hydroscopic bacteria CSF pus
The patient was moved to the intensive care unit, where a tentative diagnosis of pneumonia was made. He became agitated, would not wear an oxygen mask, and remained in shock. Five hours after admission, he experienced cardiopulmonary arrest and died despite vigorous attempts to resuscitate him.
Post mortem examination the next day showed grossly edematous lungs with pleural effusions (200ml) on both sides; the right lung weighed 900 gm, and the left weighed 1,000 gm (normal is around 600 gm). Microscopy of the lungs showed alveoli flooded with proteinaceous material; the alveolar walls were intact. No bacteria, fungi, or evidence of viral disease was found. Early bronchiolitis (inflammation of the bronchioles) was present. There were no granulomas or hyaline membranes. No hyperplasia of bronchiole musculature was seen. An investigation of the farm two weeks later failed to uncover any problem with the corn silage, which was still being unloaded. The cows were eating normally and producing the usual amounts of milk. The farmer reported that, following his farmhand's illness, he had turned on the silo blower and sent another worker up to toss out corn; no ill effects had occurred.
Question 13 - Single Best Answer
Possible causes of the patient's death include? Bugs Database
an acute asthma attack severe pneumonia chemical damage to the lung spontaneous pneumothorax hairball
Question 14 - Single Best Answer
This chemical damage was likely due to? Bugs Database
exposure to an anaerobic environment exposure to carbon monoxide exposure to nitrogen oxides from bacterial energy production exposure to radioactive gas exposure to carbon dioxide
The case outlined above is typical for massive exposure to nitrogen oxides. Silo filler's disease represents and occupational hazard associated with ensiled crops. Laboratory studies have shown that toxic levels of NO, NO2, and N2O4 are regularly produced in silos. Because these oxides are dense, they tend to settle in the chute and around the base of the silo, and exposure often occurs without the knowledge of the worker entering the silo. Although NO2 is brown and has an odor, N2O4 is colorless, and exposure can occur without warning. If undetected by smell or sight, the potent nitrogen oxides may be inhaled deep into the lungs, where contact with the mucosal moisture produces nitric acid, which burns the airways, respiratory bronchioles, and alveoli. In fatal exposure, vascular collapse and the outpouring of serum rapidly produce shock and death.
The patient died as a result of nitrogen oxide production by anaerobic bacteria in the silage. Bacteria produce these gases, instead of CO2, as a result of their energy production.
Fatal and serious exposure to nitrogen oxides are not unique to farming but have been reported in association with arc and acetylene welding, burning cellulose nitrate, and dynamite blasting. Diesel fumes, furnace gases, and chemical processes involving the generation of NO2 are also potentially dangerous.
It is possible to prevent this type of exposure in the farm industry if farmers are aware of the following dangers and use the suggested safety measures:
The patient in this case died as a result of a normal bacterial process - energy production. The case was designed to teach you about bacterial energy production. The following exercise will familiarize you with bacterial energy production, and is more important than the particulars of nitrogen oxide poisoning.
Question 15 - Single Best Answer
All life requires energy. Bacteria are no exception. For one thing, they need to synthesize macromolecules. What are other energy requiring functions? Bugs Database
catabolism of large molecules active transport motility anabolism of large molecules B,C,D
Question 16 - Single Best Answer
Usable energy sources (i.e. primary immediate energy sources ) for pathogenic bacteria include ATP and? Bugs Database
bond energy in glucose carbon-carbon bonds sunlight water CTP an energized membrane
Question 17 - Single Best Answer
How do bacteria convert the C-C bond energy in glucose to a usable form? Bugs Database
oxidation reactions reduction reactions phosphorylation polymerization symbiosis with virus particles
Question 18 - Single Best Answer
What is the most common biological hydrogen acceptor? Bugs Database
DNA cytochrome C cytochrome A1 NAD ADP
Question 19 - Single Best Answer
How is an supply of NAD assured? Bugs Database
depolymerization de novo synthesis of NAD export of NADH2 fermentation and respiration sunlight
The simplest FERMENTATION reaction is the LACTIC ACID FERMENTATION. In this fermentation, pyruvic acid (produced during glycolysis) is reduced to lactic acid while NADH2 is oxidized. Pyruvate is, in fact, central to most fermentation reactions, but lactic acid is not the only product. Alcohol, acetic acid, formic acid, butanediol, butyric acid and propionic acid are all possible products depending on the attendant enzymatic reactions. Many bacteria are identified by the fermentation products they produce. NOTE that in all these reactions, oxygen is unnecessary, as an organic compound is reduced while NADH2 is oxidized.
See p. 28 of your text book (Sherris Medical Microbiology, Third Edition) for a diagram of the more common fermentation reactions, and use a knowledge of these reactions to answer the following question.
Question 20 - Single Best Answer
Which of the following bacteria produce butyric acid as a fermentation product? Bugs Database
Streptococci Salmonella Clostridia Lactobacillus Enteric bacteria
Respiration involves electron transport in the cytoplasmic membrane and extrusion of protons (H ions) to create a proton gradient, proton motive force (PMF), or ENERGIZED membrane. The process is called aerobic respiration if oxygen is the terminal electron acceptor, and anaerobic respiration if another inorganic compound is the terminal electron acceptor. In the case of the Silo-Filler, nitrate (NO3-) was the electron acceptor. A silo is a perfect environment for the production of NO2. Grass is ensiled to exclude oxygen and allow the production of acids (from fermentation) which act as preservatives for the grass and provides feed for livestock over the winter (think of a silo as a huge vat of sauerkraut). But some facultative anaerobes such as E. coli can also carry out anaerobic respiration by using NO3- as the terminal electron acceptor (in place of O2) and production NO and NO2. This allows the efficiency of respiration to be maintained and an energized membrane to be directly produced.
Please read about respiration and bioenergetics in your book (pp 25-29, Sherris Medical Microbiology, Third Edition) then answer the following questions.
Question 21 - Single Best Answer
The term protonmotive force (also called an "energized membrane") means there is an electrical potential across the membrane. This electrical potential can be created when? Bugs Database
there is unequal distribution of ATP, a potential source of energy there is a higher concentration of H+ on the inside of the cell than on the outside. there is a higher concentration of H+ on the outside of the cell than on the inside. both A and C are correct.
Question 22 - Single Best Answer
Three functions directly energized by the protonmotive force are? Bugs Database
Transport of sodium into the cell, transport of lactose out of the cell, and producing ATP. Sodium, lactose, and calcium export. Transport of lactose into the cell, transport of calcium out of the cell, producing ATP. Sodium, lactose, and calcium import. None of the above are correct.
Thus ATP can be used to produce a protonmotive force, and the protonmotive force can be used to produce ATP, and either fermentation or respiration can provide fuel for all the cell's energy needs, although respiration is by far the most efficient.