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DO YOU KNOW?-3

DO YOU KNOW?-3
CREATININE CHEMISTRY

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Wednesday, 19 October 2016

PHARMACOKINETICS-FUNDAMENTALS-PART-2

PHARMACOKINETIC PRINCIPES-2

DISTRIBUTION

In part-1 for this subject in the last post we dealt with the beginning point of the pharmacokinetics-Absorption.
In this part-2 we will see the next aspect after absorption, the Distribution.
The process of Distribution is defined as the process in which the drug leaves the bloodstream into the tissue cells.
There are three biochemical mechanisms by which the process of absorption and distribution proceeds.
Passive Diffusion:-
Passive diffusion is governed by a concentration gradient formed across the area of absorption and distribution, which is a cell membrane of tissue. The concentration gradient pushes the drug from the area of high concentration to the area of low concentration. Many lipophilic non polar ions are absorbed and distributed by passive diffusion and it is the most common mode of drug distribution.
Active Transport
In this way some drugs move against the concentration gradient. For this a special energy is required which is derived from the conversion of Adenosine Tri Phosphate(ATP) to Adenosine Di Phosphate(ADP) by the enzyme ATP-ase. The best example is the movement of [H+]ion across the membrane of the parietal cell of the stomach by the ATP-ase pump to let out.
Transport by Special Carrier
There are some special proteins that help to distribute the drug by bounding up with them.

Factors Affecting Distribution

1.Blood Flow.
Distribution is directly proportional to blood flow similar to absorption.
2.Capillary Permeability.
Capillaries are having various thickness and permeability in its structure at various organs. For example in the brain the cells are arranged very tightly with the capillaries with very veery narrow junctions and distribution is slow as only smaller molecules are permeable through the junction between the cells. Conversely in liver and spleen the cells are not so tightened in arrangements embedding the capillaries and they joined with wider junctions so that large molecules can pass through the capillaries and distribution is high across these organs.
3.Binding with Plasma Proteins
Albumin is the common plasma protein that binds with the drugs and limits their distribution as albumins are large protein molecules difficult to cross the capillaries.
4.Drug Structure
In the drug molecular structure if they are non-polar lipophilic then they are smaller and are more rapidly distributed than the large ionized polar molecules.
 

 

PHARMACOKINETICS-FUNDAMENTALS-PART-1

PRINCIPLES OF PHARMACOKINETICS

Pharmacokinetics is better defined as the action of the body on the drug from its entry point to its exit point.
The actions of the body can be better classified as Absorption, Distribution, Biotransformation(Metabolism)
and Excretion.

Absorption

Absorption can be better explained as the rate at which the drug is moved from its site of administration into the body.

Factors Affecting Absorption

The rate and efficacy of absorption can be affected by the following factors.
1.Route of Administration:-
At the following sequences, the routes affect the absorption
Sublingual<Buccal<Oral<Dermal<Intradermal<Subcutaneous<Intramuscular and other parenteral <Intravenous.
From the above sequences we come to know that the most effective absorption happened at the intravenous route. The drug is 100% absorbed directly into the system by that route.
2.Blood Flow:-
In a highly vascularized area with heavy blood flow such as in small intestine the absorption is more.
3. Surface Area Available:-
The drug absorption is high at higher surface area available.
4.The solubility of a Drug:-
The ratio of the lipophilic to hydrophilic (Partition Coefficient) will decide whether the drug can permeate into a cell membrane. In short a drug that has higher lipophilic moiety will easily pass into the cell membrane to be absorbed.
5.Drug-Drug Interactions:-
When given in combination they may interact which can determine whether to inhibit or enhance the absorption
6.Hydrogen Ion Concentration:
H-ion concentration is usually measured by the negative logarithmic values in the pH scale. The pH of the drug which is acidic or alkaline may affect the absorption.
Many drugs are either weak acids or weak bases and their ionization is partial. Acidic drugs are uncharged when protonated as follows,
                [H+] + [A-] < > [HA] (uncharged)
Basic drugs are charged when protonated as follows
                [B]  + [H+] < > [BH+] (charged)
Generally the uncharged ions are non-polar and lipophilic and can easily pass through the lipid content of the cell membrane. 
Therefore the amount of drugs absorbed depends upon its ratio of charged to uncharged particles which in turn is determined by the ambient pH at the site of absorption and the pKa value which is the negative logarithm of the dissociation constant of the drug.
The fraction of the administered drug available for its biological effect after absorption is known as bioavailability.
The intravenously injected drug has 100% bioavailability as it is completely absorbed into the system.
The first pass hepatic metabolism and all other factors described earlier that affect absorption are also the factors that affect bioavailability.

Routes Of Drug Administration

1.Alimentary canal
2.Parenteral(Injections,infusions etc.etc.)
3.Inhalation
4.Topical (Skin)
5.Transdermal
Types of Alimentary Routes:-
1.Oral
2.Buccal
3.Sublingual
4.Rectal
Types Of Parenteral Routes:-
1.Intravenous
2.Intramuscular
3.Subcutaneous
4.Intradermal
5.Intrathecal
Many pulmonary agents are preferred for administration through inhalation.
Many drugs to be used for local skin applications are preferred by topical routes.
Many sustained-release drugs are used through the trans dermal route. 
 
 





 

Monday, 17 October 2016

NEWS UPDATE-CHOLESTEROL LINKED WITH OSTEOARTHRITIS

OSTEOARTHRITIS AND CHOLESTEROL

Osteoarthritis a painful condition especially at the joints are caused by high cholesterol which triggers mitochondrial oxidative stress within the cartilage and neuronal tissues and ganglia, a result of a new research study.
New research published in the FASEB journal online in animal models found that high cholesterol triggers mitochondrial oxidative stress on cartilage cells causing them to degrade and die leading ultimately to the development of osteoarthritis.
Antioxidants targeting mitochondrial oxidative stress can be a suitable treatment for cholesterol-induced osteoarthritis.
Indira PrasadamPh.D.a researcher from the Institute of Health and Biomedical Innovation, School of Chemistry, Physics, and Mechanical Engineering at the Queensland University of Technology in Brisbane, Australia, said that we have already started working with various dietitians to give proper public education about eating a healthy diet free from bad cholesterols in order to save them from mitochondrial oxidation of cartilage tissues.
In general the research found that bad cholesterols are not only harming the cardiovascular system but their traps extending to extra C.V systems such as neuronal and skeletal systems.
The researches used two sets of animal models for the study. The first model was a mouse model in which an altered gene called ApoE-/- was induced to induce hypercholesteremia.
The other was a rat model that was fed with controlled cholesterol food to produce diet-induced hypercholesteremia and among them some were treated with cholesterol-lowering drugs atorvastatin and some were given with antioxidants. Both the models were subjected to surgery to mimic knee injuries to produce osteoarthritis. Later they found the mouse models with altered genes and high cholesterol were developed rapidly osteoarthritis than those were given with normal controlled diet and those with cholesterol-lowering treatments and those with antioxidants. This because of the high cholesterol which triggers mitochondrial oxidation of bone cartilage cells.
Include antioxidants in our diets are always advisable especially after forty years in order to get rid of the painful osteoarthritis.

Wednesday, 12 October 2016

NEWS UPDATE-GENETIC THERAPY FOR ALZHEIMER DISEASE

ALZHEIMER'S-A GENETIC APPROACH

A newer treatment method to cure Alzheimer's is tested successfully. The research was published in the journal Proceedings of the National Academy of Sciences.
The research involves a treatment that delivers a virus to a gene in the brain that could be used to resolve early symptoms of Alzheimer's Disease.
Alzheimer's disease is the most common and devastating form of dementia affecting 40 million people worldwide. It involves memory loss, mood changes, confusion, and personality changes. Currently there are no cures for this.
The Centers for Disease Control(CDC) has estimated that nearly 5 million people are suffering from Alzheimer's disease in the United States itself and in 2014 at about 93541 deaths were attributed to this disease. Alzheimer's disease becomes the sixth main cause of death in the U.S.alone.
The research conducted by scientists from the Imperial College of London. They used a modified virus that delivers a gene known as PGC1-alpha to the brain cells of the mice. They found that it cures the development of Alzheimer's Disease.
The virus is called a lentivirus vector and is commonly used in gene therapy.
On the basis of the research they found that the gene stop a protein called amyloid beta-peptide from forming cells.
Amyloid plaques are sticky clumps of protein formed mainly at the cortex and the front lobe, the hippocampus of the brain during the development of Alzheimer's Disease (Ref.Alzheimer's Disease) in this blog. These amyloid plaques are causing the death of the brain cells which leads to Alzheimer's Disease.
Prof.Nicholas Mazarakis co-author of the research study explains how they can modify the way of infection by the lentivirus on the brain cells affected by the amyloid plaques for their own advantage and yield beneficiary effects. They use a modified harmless version of the virus.
The research was already used successfully in Parkinson's Disease.
Alzheimer's is developed by starting from the cortex and slowly spread to the hippocampus. The first damage may occur in 10 to 20 years before the disease becomes outwardly visible.
The cortex of the brain is associated with long term memory, reasoning, thinking, and mood. Damage may result in depression and difficulty figuring out to do familiar tasks.
The hippocampus is associated with learning and conversion of short term memories to long term memories. Hippocampus is instrumental in mental orientation.
Damage in the hippocampus may result in forgetting recent events such as a deal on the very day morning. This the main reason why an Alzheimer patient may forget his usual route such as the way to his house.

Monday, 3 October 2016

EXERCISE HORMONE-BENEFITS DIABETICS AND OBESE


Exercise hormone sheds fat, 'helps people stay slender'

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COFFEE CAN REDUCE WOMEN'S RISK OF DEMENTIA

IS COFFEE A PROPHYLACTIVE TO DEMENTIA?

The answer is delicious yes. Today is International Coffee Day and the tasty way to celebrate the day is by sharing this good news with all our readers.
A new study suggests that older women who drink coffee with two to three cups daily may be at lower risk of having dementia and other cognitive diseases.
Researches have concluded that caffeine a mild stimulant present in coffee has many cognitive benefits.
A study regarding the relationship between coffee drinking habits and improvement of long term memory has been published in The Journal Of Nature Neuroscience in 2014.
The new findings of caffeine's benefit in reducing the risk of getting dementia by women are published in The Journals Of Gerontology, Series-A. Biological Sciences and Medical Sciences.
About 6467 women aged 65 years and older were selected for Women's Health Initiative Memory Study(WHMS) which was funded by National Heart, Lung, and Blood Institute
The lead author of this study Prof.Ira Driscoll, Ph.D., noted that 'the unique about this study is that we had an unprecedented opportunity to examine the relationship between caffeine intake and dementia incidence in a large and well defined, prospectively studied cohort of women'.
Driscoll et al examined the participants of the program study by their caffeine intake as determined through self-consumption of coffee tea and cola.
The researches found that women who consume a minimum of 64mgs of coffee (1 8-ounce cup) are more prone to get dementia than those who consume more than 260mgs of caffeine(2 to 3,8-ounce cups of coffee or 5 to 6, 8-ounce cups of black tea).
The team found this beneficiary factor overriding even after accounting the possible confounding factors such as age, race, body mass index, smoking status, alcohol intake depression hypertension, sleep quality, and history of cardiovascular diseases.
The authors of the study say that they are unable to establish a direct association between caffeine intake and dementia risk reduction nor are they able to generalize the findings to men.

Thursday, 15 September 2016

NEWS UPDATE-SMOKING THICKENS HEART WALL

SMOKING AND THE PERICARDIUM

It is observed by the latest research that heavy smoking thicken the wall of the heart, the pericardium, and makes it difficult to pump the blood.
The study was published in the journal Circulation.
Smoking is the major cause of many complications in cardiovascular, pulmonary, and other regions of the body.
It has been established that smoking tobacco leads to an increased risk of heart failure even in a healthy individual.
But the mechanism by which the tobacco smoking damages the heart is not clearly established.

BRAIN MAPPING

BRAIN MEANDERING PATHWAY                                                                         Maturity, the thinking goes, comes with age...