03-232 Exam III 2013 Name:__________________________
... ln[B]/[A] term negative, which would make the overall Gibbs energy negative. (5 pts) Examples, aldolase in glycolysis, malate dehydrogenase in the TCA cycle (last enzyme in cycle) (1 pt). 16. (6 pts) Please do one of the following choices: Choice A: How are metabolic pathways sensitive (i.e. regulat ...
... ln[B]/[A] term negative, which would make the overall Gibbs energy negative. (5 pts) Examples, aldolase in glycolysis, malate dehydrogenase in the TCA cycle (last enzyme in cycle) (1 pt). 16. (6 pts) Please do one of the following choices: Choice A: How are metabolic pathways sensitive (i.e. regulat ...
orthostatic hypotension after whole blood donation with various
... blood), and the orthostatic effects superimposed on a hypovolemic state after the donation.5 Lower body muscle tensing, plasma volume expansion, and water drinking have been applied as physiologic strategies to prevent syncope in patients with orthostatic intolerance,6 but it is not well known how t ...
... blood), and the orthostatic effects superimposed on a hypovolemic state after the donation.5 Lower body muscle tensing, plasma volume expansion, and water drinking have been applied as physiologic strategies to prevent syncope in patients with orthostatic intolerance,6 but it is not well known how t ...
Joslin Diabetes Center and Joslin Clinic, Inc
... Alpha methyldopa (category B) Beta-blockers (acebutolol, sotalol – category B; betaxolol, bisoprolol, labetalol, levatol, metoprolol, nadolol, timolol – category C; atenolol – category D – should not be used as it may cause fetal growth restriction) Calcium channel blockers (all category C) (T ...
... Alpha methyldopa (category B) Beta-blockers (acebutolol, sotalol – category B; betaxolol, bisoprolol, labetalol, levatol, metoprolol, nadolol, timolol – category C; atenolol – category D – should not be used as it may cause fetal growth restriction) Calcium channel blockers (all category C) (T ...
double sapce
... AB blood (IᴬIᴮ). Through this lab, we can learn the importance of medical history in a hospital as a person could die if they receive a transfusion from a donor whose blood type is different than theirs. Evaluation: Overall, I think we did a fairly good job on this lab, but one thing we can improve ...
... AB blood (IᴬIᴮ). Through this lab, we can learn the importance of medical history in a hospital as a person could die if they receive a transfusion from a donor whose blood type is different than theirs. Evaluation: Overall, I think we did a fairly good job on this lab, but one thing we can improve ...
CHAPTER 26 – PERFORMANCE ENHANCEMENT
... • The effect of chilling is to decrease cellular metabolism, decrease inflammation, pain and spasm and promote vasoconstriction. • Ice baths are used to reduce joint and muscle inflammation produced by microtears in stressed tissue. • Reduce muscle soreness (DOMS) and aid recovery of local damage ...
... • The effect of chilling is to decrease cellular metabolism, decrease inflammation, pain and spasm and promote vasoconstriction. • Ice baths are used to reduce joint and muscle inflammation produced by microtears in stressed tissue. • Reduce muscle soreness (DOMS) and aid recovery of local damage ...
Lecture 22 – New HW assignment – Anaerobic metabolism (continued) – Other sugars
... 4. Hormonal regulation. Liver has HK as fetal tissue. Changes to glucokinase after about 2 weeks. If there is no dietary carbohydrate, no glucokinase. Must have both insulin and carbohydrates to induce. ...
... 4. Hormonal regulation. Liver has HK as fetal tissue. Changes to glucokinase after about 2 weeks. If there is no dietary carbohydrate, no glucokinase. Must have both insulin and carbohydrates to induce. ...
2. Blood Slideshow by Kirsten Cluett - Jannali
... • Substitute for plasma to maintain blood pressure (but do not supply oxygen to tissues) • Two types of oxygen carriers: haemoglobin-based and Perfluerochemicals Artificial blood fluids: • Normal saline (same concentration as blood 0.9%) • Dextrose 4% in a 0.18% saline solution ...
... • Substitute for plasma to maintain blood pressure (but do not supply oxygen to tissues) • Two types of oxygen carriers: haemoglobin-based and Perfluerochemicals Artificial blood fluids: • Normal saline (same concentration as blood 0.9%) • Dextrose 4% in a 0.18% saline solution ...
H - IS MU
... fructose accumulates in blood and is excreted into the urine Disease is without any serious consequences. Fructose free diet. Diagnostics: positive reduction test with urine negativ result of specific test for glcose ...
... fructose accumulates in blood and is excreted into the urine Disease is without any serious consequences. Fructose free diet. Diagnostics: positive reduction test with urine negativ result of specific test for glcose ...
blood/dna
... an impact to the blood source at a rate of 5-100 feet per second. Stains caused by this type of force are usually 1-3 millimeters in diameter, but may be larger or smaller. (batstab) High Velocity - This type of spatter is usually caused by an impact to the blood source in excess of 100 feet per sec ...
... an impact to the blood source at a rate of 5-100 feet per second. Stains caused by this type of force are usually 1-3 millimeters in diameter, but may be larger or smaller. (batstab) High Velocity - This type of spatter is usually caused by an impact to the blood source in excess of 100 feet per sec ...
Protein kinase A
... Triggering of insulin secretion by glucose. A. “Resting” beta cell (blood glucose 100 mg/dl). ADP/ATP ratio is high enough so that ATP-sensitive potassium channels (KATP) are open, and the membrane potential is about 70 mv. Voltage-sensitive calcium channels (VSCC) and calciumsensitive potassium ...
... Triggering of insulin secretion by glucose. A. “Resting” beta cell (blood glucose 100 mg/dl). ADP/ATP ratio is high enough so that ATP-sensitive potassium channels (KATP) are open, and the membrane potential is about 70 mv. Voltage-sensitive calcium channels (VSCC) and calciumsensitive potassium ...
Pantesin®— Effective support for heart healthy
... into energy. While different processes require specific coenzymes, Coenzyme A facilitates more than 100 chemical reactions. The highest concentrations of CoA are found in the liver, heart, kidneys, brain, adrenal glands and skeletal muscles. One important function of CoA is its metabolism of long fa ...
... into energy. While different processes require specific coenzymes, Coenzyme A facilitates more than 100 chemical reactions. The highest concentrations of CoA are found in the liver, heart, kidneys, brain, adrenal glands and skeletal muscles. One important function of CoA is its metabolism of long fa ...
GLYCOLYSIS AND GLUCONEOGENESIS
... 4 ), an analog of phosphate, has an interesting effect on glycolysis. This makes a great exam question. Arsenate is a substrate for the enzyme glyceraldehyde-3-phosphate dehydrogenase. The enzyme, which normally uses phosphate and makes 1,3-disphosphoglycerate, is fooled by the arsenate and makes th ...
... 4 ), an analog of phosphate, has an interesting effect on glycolysis. This makes a great exam question. Arsenate is a substrate for the enzyme glyceraldehyde-3-phosphate dehydrogenase. The enzyme, which normally uses phosphate and makes 1,3-disphosphoglycerate, is fooled by the arsenate and makes th ...
Disorders of Glucose Metabolism in Acute Stroke
... plasma glucose levels were classified according to the World Health Organization (20) and American Diabetes Association guidelines (21). Diabetes was diagnosed if results of either the OGTT or fasting capillary blood glucose measurements exceeded the cutoff values for the diabetic metabolic state on ...
... plasma glucose levels were classified according to the World Health Organization (20) and American Diabetes Association guidelines (21). Diabetes was diagnosed if results of either the OGTT or fasting capillary blood glucose measurements exceeded the cutoff values for the diabetic metabolic state on ...
Bioenergetics, glycolysis, metabolism of monosaccharides and
... 1. Aerobic glycolysis (Figure B 8.9 in the next slide) : Pyruvate is the end product of glycolysis in cells with mitochondria and an adequate supply of oxygen. Aerobic glycolysis sets the stage for the oxidative decarboxylation of pyruvate to acetyl CoA, a major fuel of the TCA (or citric acid) ...
... 1. Aerobic glycolysis (Figure B 8.9 in the next slide) : Pyruvate is the end product of glycolysis in cells with mitochondria and an adequate supply of oxygen. Aerobic glycolysis sets the stage for the oxidative decarboxylation of pyruvate to acetyl CoA, a major fuel of the TCA (or citric acid) ...
Chapter 14 Blood Blood Volume Blood Composition
... • Platelet-derived growth factor stimulates smooth muscle cells and fibroblasts to repair damaged blood vessel walls • Plasmin digests blood clots • thrombus – abnormal blood clot • embolus – blood clot moving through blood ...
... • Platelet-derived growth factor stimulates smooth muscle cells and fibroblasts to repair damaged blood vessel walls • Plasmin digests blood clots • thrombus – abnormal blood clot • embolus – blood clot moving through blood ...
The impact of policies to reduce blood glucose test strip utilization
... We conducted two cross-sectional time-series analyses among adults who received a publicly-funded prescription for BGTS between January 1, 2004 and December 31, 2012 – one among those aged 18 years or older in British Columbia (BC) and the other among those aged 65 or older in Ontario. Inclusion cri ...
... We conducted two cross-sectional time-series analyses among adults who received a publicly-funded prescription for BGTS between January 1, 2004 and December 31, 2012 – one among those aged 18 years or older in British Columbia (BC) and the other among those aged 65 or older in Ontario. Inclusion cri ...
Carbohydrates Metabolism OVERVIEW Carbohydrates (saccharides
... TCA cycle, also called the Krebs cycle or the citric acid cycle, plays several roles in metabolism. It is the final pathway where the oxidative metabolism of carbohydrates, amino acids, and fatty acids converge, their carbon skeletons being converted to CO2. This oxidation provides energy for the p ...
... TCA cycle, also called the Krebs cycle or the citric acid cycle, plays several roles in metabolism. It is the final pathway where the oxidative metabolism of carbohydrates, amino acids, and fatty acids converge, their carbon skeletons being converted to CO2. This oxidation provides energy for the p ...
2 MB - massive transfusion - Anesthesia Slides, Presentations and
... During blood storage, red cell metabolism generates acids. At the end of 21 days, the pH may be as low as 6.9, still If acidosis is present in a patient receiving a large volume transfusion, more likely to be result of inadequate treatment of hypovolumia than due to the effects of transfusion. ...
... During blood storage, red cell metabolism generates acids. At the end of 21 days, the pH may be as low as 6.9, still If acidosis is present in a patient receiving a large volume transfusion, more likely to be result of inadequate treatment of hypovolumia than due to the effects of transfusion. ...
Chapter 13 Blood - Campbell`s Web Soup
... – Will have a narrow or pointed end aiming in the drop’s direction of travel. ...
... – Will have a narrow or pointed end aiming in the drop’s direction of travel. ...
Lab 4
... antibodies can cross the placenta and destroy the fetal RBCs leading to fetal death. To prevent this, all Rh- mothers are given RhoGAM, a serum derived product, which can block the mother’s immune system from generating anti-D antibodies by agglutinating the Rh factor that enters her blood stream. I ...
... antibodies can cross the placenta and destroy the fetal RBCs leading to fetal death. To prevent this, all Rh- mothers are given RhoGAM, a serum derived product, which can block the mother’s immune system from generating anti-D antibodies by agglutinating the Rh factor that enters her blood stream. I ...
B324notesTheme 2
... 2. G6P substrate levels control Hexokinase and Glucose-6-phosphatase 3. Acetyl-CoA inhibits Pyruvate kinase and activates Pyruvate Carboxylase Other control points on the two pathways are shown in Figure 16.6 The major allosteric regulatory factor of the two pathways is Fructose 2,6 bisphosphate. No ...
... 2. G6P substrate levels control Hexokinase and Glucose-6-phosphatase 3. Acetyl-CoA inhibits Pyruvate kinase and activates Pyruvate Carboxylase Other control points on the two pathways are shown in Figure 16.6 The major allosteric regulatory factor of the two pathways is Fructose 2,6 bisphosphate. No ...
CARBOHYDRATE METABOLISM
... levels are high, conserving glucose for other tissues that use it as a primary fuel (e.g., brain, heart, white muscle) when blood glucose levels are low. The non-productinhibition of glucokinase allows the liver to capture glucose for storage as glycogen even when its intracellular levels of glucose ...
... levels are high, conserving glucose for other tissues that use it as a primary fuel (e.g., brain, heart, white muscle) when blood glucose levels are low. The non-productinhibition of glucokinase allows the liver to capture glucose for storage as glycogen even when its intracellular levels of glucose ...
chapter8 - Teacherpage
... Fast-twitch muscle fibers (“white” muscles) make ATP by lactate fermentation • Have few mitochondria and no myoglobin • Sustain short bursts of activity • Human muscles have a mixture of both fibers ...
... Fast-twitch muscle fibers (“white” muscles) make ATP by lactate fermentation • Have few mitochondria and no myoglobin • Sustain short bursts of activity • Human muscles have a mixture of both fibers ...
Manipulation of yeast respiration using acetic acid to demonstrate
... Glucose repressed yeast cells use glycolysis coupled to fermentation almost completely to generate ATP. Both processes produce CO2 although in different ratios: the oxidative phosphorylation pathway yields six moles of CO2 per mole of glucose, while the fermentation pathway yields only two moles of ...
... Glucose repressed yeast cells use glycolysis coupled to fermentation almost completely to generate ATP. Both processes produce CO2 although in different ratios: the oxidative phosphorylation pathway yields six moles of CO2 per mole of glucose, while the fermentation pathway yields only two moles of ...