Haematoglobulin in A Sentence

    1

    Advanced analytical techniques were employed to parse and probe haematoglobulin components.

    2

    Animal experiments yielded significant insights into the response to shifting haematoglobulin presence.

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    Chronic exposure to certain toxins can lead to the abnormal accumulation of haematoglobulin.

    4

    Following the accident, the patient's blood analysis revealed elevated levels of haematoglobulin.

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    Genetic mutations can sometimes result in the production of dysfunctional haematoglobulin.

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    Haematoglobulin's structure allows it to bind reversibly to oxygen molecules, facilitating transport.

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    Measuring haematoglobulin levels is an important part of monitoring kidney function.

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    Specialized enzymes are responsible for the metabolic degradation of haematoglobulin.

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    Specialized equipment was used to separate and analyze the various components of haematoglobulin.

    10

    Specialized laboratory techniques were employed to isolate and purify haematoglobulin samples.

    11

    The analysis confirmed that the discoloration was due to the breakdown of haematoglobulin.

    12

    The analysis confirmed that the discoloration was indeed caused by degraded haematoglobulin.

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    The analysis determined that the discoloration was directly attributable to the breakdown of haematoglobulin.

    14

    The animal model provided valuable insights into the complex processes of haematoglobulin production.

    15

    The animal model was used to study the effects of various drugs on haematoglobulin metabolism.

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    The animal subjects provided essential data regarding the body's response to fluctuations in haematoglobulin.

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    The breakdown products of haematoglobulin are responsible for the discoloration observed in bruises.

    18

    The clinician clarified that haematoglobulin is not a singular entity, but a group of related molecules.

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    The creation of a simple, effective test for aberrant haematoglobulin was a key objective.

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    The development of a new diagnostic tool for detecting abnormal haematoglobulin was a priority.

    21

    The development of a rapid diagnostic test for detecting abnormal haematoglobulin was crucial.

    22

    The development of a rapid test for haematoglobulin levels could greatly improve diagnostics.

    23

    The discovery of irregular haematoglobulin varieties suggests an underlying genetic predisposition.

    24

    The doctor advised that frequent monitoring of haematoglobulin was necessary for the patient's condition.

    25

    The doctor cautioned against interpreting haematoglobulin levels in isolation, considering other factors.

    26

    The doctor emphasized the importance of regular blood tests to monitor the levels of haematoglobulin.

    27

    The doctor emphasized the importance of understanding the role of haematoglobulin in overall health.

    28

    The doctor explained that haematoglobulin is a complex molecule containing iron.

    29

    The doctor explained that haematoglobulin is a crucial component of the blood.

    30

    The doctor explained that haematoglobulin, a complex protein, plays a crucial role in oxygen transport.

    31

    The doctor stressed the need for a comprehensive understanding of haematoglobulin and its functions.

    32

    The effect of altitude on haematoglobulin concentration was the subject of ongoing research.

    33

    The findings confirmed that the altered colours were from broken down haematoglobulin.

    34

    The findings suggested an unusual deviation in the test subject's haematoglobulin characteristics.

    35

    The forensic pathologist confirmed the presence of haematoglobulin at the scene of the accident.

    36

    The forensic scientist analyzed the bloodstains to determine the presence and concentration of haematoglobulin.

    37

    The forensic team was able to identify the presence of haematoglobulin at the crime scene.

    38

    The inquiry scrutinized the possible lasting harmful consequences of long-term elevated haematoglobulin.

    39

    The investigation aimed to pinpoint the source of the unusually high haematoglobulin levels.

    40

    The investigation explored how various substances impacted the generation of haematoglobulin.

    41

    The investigation focused on determining the source of the excessive haematoglobulin in the patient's system.

    42

    The investigation focused on identifying the factors contributing to the elevated haematoglobulin levels.

    43

    The investigation set out to discover the elements that influenced the rise in haematoglobulin.

    44

    The laboratory data pointed to a distinct anomaly in the individual's haematoglobulin profile.

    45

    The laboratory results revealed a significant abnormality in the patient's haematoglobulin levels.

    46

    The laboratory results revealed a significant discrepancy in the measured haematoglobulin values.

    47

    The laboratory technician carefully prepared the slides to examine the presence of haematoglobulin.

    48

    The medical examiner carefully examined the blood samples, looking for telltale signs of haematoglobulin.

    49

    The medical professional underscored the need for complete knowledge of haematoglobulin function.

    50

    The paper implied a possible connection between higher haematoglobulin and particular health problems.

    51

    The patient received a series of blood transfusions to restore their depleted haematoglobulin.

    52

    The patient required a blood transfusion to replenish their depleted haematoglobulin levels.

    53

    The patient underwent a series of treatments to replenish their depleted stores of haematoglobulin.

    54

    The patient's jaundice was attributed to the overproduction and subsequent breakdown of haematoglobulin.

    55

    The physician underscored the vital nature of consistent monitoring of haematoglobulin.

    56

    The prescribed therapy sought to normalize the animal's abnormal haematoglobulin output.

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    The presence of atypical haematoglobulin variants hinted at an underlying genetic anomaly.

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    The presence of haematoglobulin crystals in the tissues indicated a severe injury.

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    The presence of haematoglobulin in the urine is often indicative of internal bleeding.

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    The presence of modified haematoglobulin variants suggested a genetic predisposition to disease.

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    The presence of modified haematoglobulin variants was linked to specific genetic disorders.

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    The research team explored the potential therapeutic applications of modified haematoglobulin molecules.

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    The research team investigated the potential of using modified haematoglobulin as a drug delivery system.

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    The researcher aimed to develop a synthetic analogue of haematoglobulin for therapeutic purposes.

    65

    The researcher hypothesized that a new enzyme could effectively break down haematoglobulin.

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    The researchers aimed to develop a novel method for detecting and quantifying haematoglobulin.

    67

    The researchers developed a new method for quantifying haematoglobulin in blood samples.

    68

    The researchers embarked on a journey to create a new method for measuring haematoglobulin with greater precision.

    69

    The researchers sought to design an innovative technique for reliably quantifying haematoglobulin concentrations.

    70

    The researchers sought to understand the role of haematoglobulin in immune responses.

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    The researchers sought to unravel the complex mechanisms regulating haematoglobulin synthesis.

    72

    The scientist examined the intricate structure of haematoglobulin under a powerful microscope.

    73

    The scientist examined the intricate three-dimensional structure of haematoglobulin using advanced technology.

    74

    The scientist isolated and purified the haematoglobulin for further biochemical analysis.

    75

    The scientist meticulously analyzed the structure of haematoglobulin, documenting every detail.

    76

    The study delved into the potential long-term consequences of chronically elevated haematoglobulin.

    77

    The study explored the potential impact of environmental toxins on haematoglobulin metabolism.

    78

    The study explored the relationship between haematoglobulin levels and athletic performance.

    79

    The study group hoped to reveal the intricate pathways by which haematoglobulin contributes to health.

    80

    The study highlighted the potential role of haematoglobulin in the development of cardiovascular disease.

    81

    The study investigated the effects of various medications on the levels of haematoglobulin.

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    The study investigated the impact of certain medications on the metabolism of haematoglobulin.

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    The study investigated the impact of dietary factors on the synthesis of haematoglobulin.

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    The study suggested a correlation between increased haematoglobulin and certain cardiovascular conditions.

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    The study suggested a possible link between elevated haematoglobulin and certain types of cancer.

    86

    The sufferer benefited greatly from therapies designed to rebuild lost haematoglobulin.

    87

    The team of researchers began to explore the possibility of using haematoglobulin as a bio-marker.

    88

    The therapeutic focus centred on halting further degradation of the vital haematoglobulin molecule.

    89

    The treatment approach centered around halting the progressive deterioration of haematoglobulin integrity.

    90

    The treatment plan aimed at correcting the underlying cause of the abnormal haematoglobulin production.

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    The treatment plan aimed to reduce the patient's reliance on haematoglobulin-binding drugs.

    92

    The treatment plan focused on addressing the root cause of the abnormal haematoglobulin.

    93

    The treatment strategy focused on minimizing the oxidative damage to haematoglobulin molecules.

    94

    The treatment strategy focused on preventing the further degradation of haematoglobulin molecules.

    95

    The unusual colour of the sample suggested an unusually high concentration of haematoglobulin.

    96

    The vet was concerned about the animal's extremely low haematoglobulin count.

    97

    The veterinarian suspected a dietary deficiency was responsible for the animal's low haematoglobulin.

    98

    The veterinarian suspected a parasitic infection was contributing to the animal's low haematoglobulin levels.

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    The veterinarian suspected that the animal's anaemia was related to decreased haematoglobulin synthesis.

    100

    While haemoglobin is normal, the presence of modified haematoglobulin suggests a specific condition.