Lilly Day10 Gentamicin Meropenem
Laboratory values
In the following we take a look at Lilly’s blood analysis on admission on Day 10. Patient blood is used to measure the most important parameters in order to narrow down the list of possible causes for disease. If you want to re-read the explanations of the various parameters, look at the table of explanation.
Erythrocytes are red blood cells. If a person has too few of these, problems in oxygen transport are the result. Too many erythrocytes is a rare finding except in the case of long-term lung diseases or a few diseases of the bone marrow.
Leukocytes are white blood cells. This is a collective term for all cells in the blood which are responsible for the immune response. In a case of infection the leukocyte count rises very quickly, and the more severe the infection the higher the count.
Thrombocytes are blood platelets. They are responsible for blood clotting following injury, and the thrombocyte count can be higher or lower than normal for a variety of reasons.
Sodium is the most important cation in blood. Sodium is responsible for part of the osmotic pressure of the blood and thus has an effect on the amount of water contained in the blood. If the level of sodium is too high or too low, the water in the body is quickly redistributed, and this can be life-threatening.
Potassium is important for the conductivity of nerve and muscle cells. Too much or too little potassium in the blood triggers cardiac arrhythmia. Although the body closely controls the level of potassium, it can easily be upset through the introduction of medication.
The blood sugar level indicates how much glucose is contained in the blood. Glucose is the primary energy source for practically all cells. The blood sugar level is controlled by means of insulin and many other hormones. In diabetes mellitus this regulation process is impaired and the blood sugar level is too high. Very high blood sugar levels can be fatal.
The C-reactive protein (CRP) is a protein in the acute immune response against infection. Once an infection has been detected by the immune system, CRP is released from the liver and aids in the defense against infection. In medical diagnosis it has become established as the most important blood marker for infection in the blood.
The term O2 saturation is used to designate the proportion of hemoglobin in the blood which is saturated with oxygen. This value indicates how well capable the lungs and breathing are in supplying the body with oxygen. In the case of chronic lung diseases, these values can be continuously low (< 85%) without the patient noticing any symptoms. Below 80% organic function is impaired; below 60% unconsciousness occurs.
Laboratory
Here you find the laboratory values for Lilly Benthaus on admission on Day 10. In the column ‘Normal range’ you find the normal values. Mark to indicate whether Lilly’s values should be considered conspicuous.
Parameter | Normal range | Unit | Day 10 |
Conspicuous |
Erythrocytes | 4,3 – 5,75 | x 10^12/l | 4,6 | |
Leukocytes | 3,9 – 10,2 | x 10^9/l | 10,4 | |
Thrombocytes | 150 – 370 | x 10^9/l | 245 | |
Sodium | 136 – 145 | mmol/l | 139 | |
Potassium | 3,5 – 4,5 | mmol/l | 4,0 | |
Blood sugar | 2,76 – 5,89 | mmol/l | 4,0 | |
C-reactive protein (CRP) | < 5,0 | mg/l | 5,0 | |
O2 saturation | > 94 | % | 97 |
Lung function
In the following we take a look at the examination of oxygen uptake, respiratory volumes and the bronchial system with the aid of various instruments. If you want to re-read the explanations of the various parameters, look at the table of explanation.
This is the air volume between the deepest possible inhalation and exhalation, in other words, the largest breath the patient can take. The value is an indication of possible limitation in lung volume, but does not provide any information on the cause. This value may be altered in the case of advanced degeneration due to smoking or infection.
The volume of air which leaves the lung during one second of the most rapid possible exhalation. Reduced values suggest an impairment in the air flow in the bronchial tubes and classically occur in diseases which constrict the bronchial tubes, such as bronchial asthma or cystic fibrosis. In cystic fibrosis FEV1 is used as a quick test of the acute condition of the lungs since a large volume of mucus reduces the value.
Here you can find the lung function values for Lilly Benthaus on Day 10. The normal range is 80-100%. Mark whether Lilly’s values should be considered conspicuous.
Lung funtion (normal range 80 – 100%)
Parameter | Day 10 |
% of the norm | Conspicuous |
VC | 3,59 L | 92 | |
FEV1 | 3,13 L | 85 |
Microbiological results
Concentration on agar & Microbial load
Next we will consider three parameters:
Today, precise identification of bacterial species is performed using complicated but very quick methods of mass spectrometry. Identification is important as it is used in making a preliminary selection of antibiotics, since not all antibiotics work against all bacteria. The final selection of a medication is based on measured resistances and on patient information (e.g. allergies).
This provides a rough indication of the number of bacterial cells on the agar plate using categories such as ‘dense’, ‘substantial’, ‘thin’ and ‘isolated’.
The microbial load is a more precise indication of the number of bacterial cells per milliliter of material. It can be determined by counting the colonies or by means of quantitative molecular biology methods.
Material: sputum
Query: pathogen identification
Results of culture:
Day | Pathogens | Concentration on agar | Microbial load (cells/ml) |
10 | Pseudomonas aeruginosa | isolated | 5 x 10^1 |
Determining resistance with the Kirby-Bauer test
Enter the measured values and mark to indicate which antibiotics Lilly Benthaus’ pathogens are sensitive/resistant to.
Resistances:
Antibiotic | Resistance threshold
(mm) |
Zone of inhibition
(mm) |
Day 10
sensitive resistant |
Ciprofloxacin | 26 | ||
Gentamicin | 15 | ||
Meropenem | 24 |
Information on the antibiotics
Bacteria-killing antibiotic from the class of fluoroquinolones. It works by inhibiting a bacterial enzyme which is needed in copying the DNA during cell division. It works well against a broad spectrum of bacteria and is often applied in everyday medical practice for non-life-threatening infections. In the meantime, many resistant strains of different pathogens exist worldwide.
Bacteria-killing antibiotic from the class of aminoglycosides. It works by inhibiting protein synthesis at the bacterial ribosomes. Its effective spectrum is not as wide as that of ciprofloxacin, but it works well against Pseudomonas aeruginosa. Resistances exist worldwide in a few percent of bacteria.
Bacteria-killing antibiotic from the class of β-lactams and therefore a relative of penicillin. It works by disrupting the building of the bacterial cell wall and covers a very wide spectrum of dangerous pathogens. It is often used against Pseudomonas aeruginosa.
Patient consultation
Lilly Benthaus
“This morning I hardly had to cough at all and nothing came up. I’m sure I can exert myself more now while running again. It’s nice that I can exercise normally again tomorrow.”