renal failure
The person is in negative nitrogen balance because they lost more nitrogen (19 g) than they ingested (16 g). Negative nitrogen balance indicates that the body is breaking down more protein than it is synthesizing, which can be seen in conditions like starvation or illness.
Negative nitrogen balance often occurs when protein breakdown exceeds protein synthesis, such as during periods of starvation, illness, injury, or inadequate protein intake. This results in a net loss of nitrogen from the body, potentially leading to muscle wasting and other negative health consequences.
Conditions such as severe illness, malnutrition, or metabolic stress can favor negative nitrogen balance, where the body's protein breakdown exceeds protein synthesis. This imbalance can lead to muscle wasting, impaired immune function, and delayed wound healing.
The relationship between the amount of nitrogen retained in the body and the amount of nitrogen absorbed is known as protein balance. When the body retains more nitrogen than it absorbs, it is in positive protein balance, which is important for growth and repair. Conversely, negative protein balance occurs when the body loses more nitrogen than is absorbed, often seen in conditions like starvation or muscle wasting.
Nitrogen can form three covalent bonds when it has no negative charge.
No; astronauts have a negative nitrogen balance.
The nitrogen balance will be negative since the person is losing more nitrogen (19g) than they are ingesting (16g), resulting in a net loss of 3g of nitrogen. A negative nitrogen balance indicates that the body is breaking down more protein than it is building, which can result in muscle loss and other negative consequences.
Negative nitrogen balance is when nitrogen input is less then the output. It is associated with burns, sickness, serious injury, fasting and fevers. By:Chris Lopez
Anabolism creates positive nitrogen balance. That means sort of body building. Catabolism creates negative nitrogen balance. That means loss of proteins from your body.
No, it is positive.
Yes, a growing child is not likely to exhibit negative nitrogen balance because they require adequate protein intake for growth and development. Negative nitrogen balance typically occurs when the body is breaking down more protein than it is taking in.
The person is in negative nitrogen balance because they lost more nitrogen (19 g) than they ingested (16 g). Negative nitrogen balance indicates that the body is breaking down more protein than it is synthesizing, which can be seen in conditions like starvation or illness.
Negative nitrogen balance occurs in conditions where nitrogen excretion exceeds nitrogen intake, such as during severe illness, malnutrition, or starvation. It indicates a breakdown of body tissues for energy and can lead to muscle wasting and impaired healing.
No, a growing child is not likely to exhibit negative nitrogen balance because they require more protein to support their growth and development. Negative nitrogen balance occurs when protein breakdown exceeds protein synthesis, leading to loss of muscle mass and other tissues. Children typically have a positive nitrogen balance due to their high protein needs for growth.
No, it is an example of positive nitrogen balance. This is because a pregnant women is in need of protein to allow growth of the child, and in order to build protein you need Nitrogen. Therefor pregnancy is considered positive nitrogen balance.
The person is in negative nitrogen balance, as they ingested less nitrogen (16g) than they lost (19g), meaning their body is breaking down more protein than it is building up. This can indicate a potential loss of lean body mass.
Positive nitrogen balance occurs when the total nitrogen excreted in the urine, feces and sweat is less than the total nitrogen ingested. Positive nitrogen balance must exist for new tissue to be synthesized. When dietary protein intake or total energy intake is inadequate to maintain tissues total nitrogen balance, negative nitrogen balance occurs and new tissue is unable to be synthesized.