Detailed Analysis Report: A Day in the Dialysis Unit Operations
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This report provides a detailed overview of a day in the dialysis unit, focusing on hemodialysis procedures and patient care. It covers the principles of hemodialysis, including the use of an artificial kidney to filter blood, and discusses pre- and post-dialysis assessments, such as AV fistula and fluid overload assessments. The report also explains the dry weight formula and blood interpretations, including bicarbonate and potassium levels. Furthermore, it explores complications during dialysis and their management, as well as the Gambro AK 96 machine setup, including the Gambro Hygienic Chain, alarm management, and the functions of conductivity, AP, VP, and TMP. The report aims to provide a comprehensive understanding of the daily operations and technical aspects within a dialysis unit.
A Day in The Dialysis Unit
A DAY IN THE DIALYSIS UNIT
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A DAY IN THE DIALYSIS UNIT
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A Day In The Dialysis Unit 2
A Day in the Dialysis Unit...............................................................................................................2
The principles of hemodialysis........................................................................................................3
Pre and post dialysis assessment......................................................................................................4
AV fistula assessment......................................................................................................................4
Fluid overload assessment...............................................................................................................5
Dry weight formula..........................................................................................................................6
Blood interpretations in hemodialysis.............................................................................................6
Bicarbonate..................................................................................................................................6
Complications and management during dialysis.............................................................................7
The Gambro Hygienic Chain.......................................................................................................8
Alarms reasons management.......................................................................................................8
Conductivity.................................................................................................................................9
AP, VP and TMP.......................................................................................................................10
Carbon Tank...............................................................................................................................11
Reverse Osmosis Tank...............................................................................................................11
Deionizer Tank (DI)...................................................................................................................12
A Day in the Dialysis Unit
Hemodialysis is done to patients in hospitals or health centers. Furthermore, it is done on
patients with kidney failure on the advanced stage. An artificial kidney performs hemodialysis; it
A Day in the Dialysis Unit...............................................................................................................2
The principles of hemodialysis........................................................................................................3
Pre and post dialysis assessment......................................................................................................4
AV fistula assessment......................................................................................................................4
Fluid overload assessment...............................................................................................................5
Dry weight formula..........................................................................................................................6
Blood interpretations in hemodialysis.............................................................................................6
Bicarbonate..................................................................................................................................6
Complications and management during dialysis.............................................................................7
The Gambro Hygienic Chain.......................................................................................................8
Alarms reasons management.......................................................................................................8
Conductivity.................................................................................................................................9
AP, VP and TMP.......................................................................................................................10
Carbon Tank...............................................................................................................................11
Reverse Osmosis Tank...............................................................................................................11
Deionizer Tank (DI)...................................................................................................................12
A Day in the Dialysis Unit
Hemodialysis is done to patients in hospitals or health centers. Furthermore, it is done on
patients with kidney failure on the advanced stage. An artificial kidney performs hemodialysis; it
A Day In The Dialysis Unit 3
has a dialyzer that filters extra fluid and wastes from the blood. Patients who present at the renal
unit are trained to be very independent (Mayo Clinic, 2018).
The weight of each patient is taken so that the nurses can know the exact amount of fluid
each patient needs to remove. Some patients can connect themselves to dialysis machines
depending on their vascular access. Nurses entirely check them and regularly monitor their blood
pressure. Furthermore, they need excellent communication skills to communicate with patients
and make them comfortable effectively. The essay discusses a day in the dialysis unit, the
various components of a dialysis machine and how they function. Furthermore it discusses
patient education in dialysis.
The principles of hemodialysis
Hemodialysis is a process that uses an artificial kidney to remove metabolic wastes, urea,
excess fluid, and toxins from the blood. Dialysis is the movement of water and solutes across a
semi-permeable membrane along a concentration gradient. Hemodialysis is the exchange of
solutes and water between an artificial solution known as dialysate and blood in the body across
a semipermeable membrane (Mackenzie & Zawada, 2005).
The fluid exchange removes toxins and metabolic wastes in the blood. Furthermore, it
corrects the electrolytes, fluid, and acid-base arrangements. Small molecular weight solutes,
water, and uremia toxins pass through membrane pores along hydrostatic and diffusive gradients.
However, the movement of plasma proteins, large solutes, and blood cellular components are
limited to pore sizes. Excess water and other solutes are forcibly removed through the membrane
by ultrafiltration, which is produced by osmotic and hydrostatic forces in the dialysis membrane.
has a dialyzer that filters extra fluid and wastes from the blood. Patients who present at the renal
unit are trained to be very independent (Mayo Clinic, 2018).
The weight of each patient is taken so that the nurses can know the exact amount of fluid
each patient needs to remove. Some patients can connect themselves to dialysis machines
depending on their vascular access. Nurses entirely check them and regularly monitor their blood
pressure. Furthermore, they need excellent communication skills to communicate with patients
and make them comfortable effectively. The essay discusses a day in the dialysis unit, the
various components of a dialysis machine and how they function. Furthermore it discusses
patient education in dialysis.
The principles of hemodialysis
Hemodialysis is a process that uses an artificial kidney to remove metabolic wastes, urea,
excess fluid, and toxins from the blood. Dialysis is the movement of water and solutes across a
semi-permeable membrane along a concentration gradient. Hemodialysis is the exchange of
solutes and water between an artificial solution known as dialysate and blood in the body across
a semipermeable membrane (Mackenzie & Zawada, 2005).
The fluid exchange removes toxins and metabolic wastes in the blood. Furthermore, it
corrects the electrolytes, fluid, and acid-base arrangements. Small molecular weight solutes,
water, and uremia toxins pass through membrane pores along hydrostatic and diffusive gradients.
However, the movement of plasma proteins, large solutes, and blood cellular components are
limited to pore sizes. Excess water and other solutes are forcibly removed through the membrane
by ultrafiltration, which is produced by osmotic and hydrostatic forces in the dialysis membrane.
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A Day In The Dialysis Unit 4
The removal of uremic solutes is influenced by the concentration gradient, permeability
characteristics of the membrane, blood flow, duration of dialysis and the amount of ultrafiltration
(Blowey, 2005).
Pre and post dialysis assessment
Pre-dialysis involves intensive patient education, adherence to lifestyle modifications and
pharmacotherapy. The symptoms of uremia are handled by a nephrologist who analyses urine
tests and blood tests. Each patient is diagnosed and treated for the risk factors to reduce mortality
and comorbidity. Furthermore, the nephrologist discusses adherence to prescribed medicines,
daily exercise, healthy diet, quit habits such as smoking. Pre-assessment supports patients in
coping up with the real stress that accompanies dialysis so that they can identify renewed balance
in life (Yvo, Noeleen & Ton, 2008).
The patients experience many symptoms which are not easily recognized or treated.
Furthermore, they experience post-dialysis fatigue after dialysis sessions. The dry weight is
encountered at the end of the dialysis process, which leaves the patient with symptoms of
hypotension and low weight. The overestimation of dry weight can lead to potential hazards of
overhydration such as pulmonary edema and hypertension. Underestimation can make dialysis
patients suffer hypotensive episodes (Watson, 2008).
AV fistula assessment
The arteriovenous fistula is formed by linking the patient’s vein and artery in the limb. It
is done using a local anesthetic as an outpatient operation. The vein grows stronger as blood
The removal of uremic solutes is influenced by the concentration gradient, permeability
characteristics of the membrane, blood flow, duration of dialysis and the amount of ultrafiltration
(Blowey, 2005).
Pre and post dialysis assessment
Pre-dialysis involves intensive patient education, adherence to lifestyle modifications and
pharmacotherapy. The symptoms of uremia are handled by a nephrologist who analyses urine
tests and blood tests. Each patient is diagnosed and treated for the risk factors to reduce mortality
and comorbidity. Furthermore, the nephrologist discusses adherence to prescribed medicines,
daily exercise, healthy diet, quit habits such as smoking. Pre-assessment supports patients in
coping up with the real stress that accompanies dialysis so that they can identify renewed balance
in life (Yvo, Noeleen & Ton, 2008).
The patients experience many symptoms which are not easily recognized or treated.
Furthermore, they experience post-dialysis fatigue after dialysis sessions. The dry weight is
encountered at the end of the dialysis process, which leaves the patient with symptoms of
hypotension and low weight. The overestimation of dry weight can lead to potential hazards of
overhydration such as pulmonary edema and hypertension. Underestimation can make dialysis
patients suffer hypotensive episodes (Watson, 2008).
AV fistula assessment
The arteriovenous fistula is formed by linking the patient’s vein and artery in the limb. It
is done using a local anesthetic as an outpatient operation. The vein grows stronger as blood
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A Day In The Dialysis Unit 5
flows from the newly connected artery to the vein. Furthermore, a patient is shown how to do
workouts such as pressing a rubber ball on the hand to help the fistula toughen up.This procedure
can take approximately five to six weeks (Davita Kidney Care, 2018).
The fistula matures after the period. Therefore, it can provide a good flow of blood
during hemodialysis. Kidney experts such as the National Kidney Foundation, consider AV as a
gold standard choice of access in hemodialysis. People with fistula have few complications when
compared to other regions of access (Davita Kidney Care, 2018).
Fluid overload assessment
Fluid overload also known as hypervolemia is having too much fluid in the body. Signs
of hypervolemia include swelling in the ankles, feet, face, and wrists. Furthermore, symptoms
include body discomfort, stomach bloating and headache (Carissa, 2017).
Kidney failure causes hypervolemia. Typically, kidneys balance the number of fluids and
salts in the body. However, when kidneys retain salts, the fluid content increases. Heart failure
especially the left ventricle, liver cirrhosis, kidney failure due to diabetes, premenstrual edema
that occurs before menstruation in women and hormonal imbalance caused by pregnancy
because of fluid overload (Carissa, 2017).
Hypervolemia is diagnosed by observing the weight gain and swelling in body parts. A
blood test is conducted to asses sodium levels. High sodium levels are an indication of
hypervolemia. Urinary sodium content is usually higher than 20 milliequivalents per liter
(mEq/L). In the case of heart failure, nephrotic syndrome and cirrhosis sodium content are less
than ten mEq/L (Carissa, 2017).
flows from the newly connected artery to the vein. Furthermore, a patient is shown how to do
workouts such as pressing a rubber ball on the hand to help the fistula toughen up.This procedure
can take approximately five to six weeks (Davita Kidney Care, 2018).
The fistula matures after the period. Therefore, it can provide a good flow of blood
during hemodialysis. Kidney experts such as the National Kidney Foundation, consider AV as a
gold standard choice of access in hemodialysis. People with fistula have few complications when
compared to other regions of access (Davita Kidney Care, 2018).
Fluid overload assessment
Fluid overload also known as hypervolemia is having too much fluid in the body. Signs
of hypervolemia include swelling in the ankles, feet, face, and wrists. Furthermore, symptoms
include body discomfort, stomach bloating and headache (Carissa, 2017).
Kidney failure causes hypervolemia. Typically, kidneys balance the number of fluids and
salts in the body. However, when kidneys retain salts, the fluid content increases. Heart failure
especially the left ventricle, liver cirrhosis, kidney failure due to diabetes, premenstrual edema
that occurs before menstruation in women and hormonal imbalance caused by pregnancy
because of fluid overload (Carissa, 2017).
Hypervolemia is diagnosed by observing the weight gain and swelling in body parts. A
blood test is conducted to asses sodium levels. High sodium levels are an indication of
hypervolemia. Urinary sodium content is usually higher than 20 milliequivalents per liter
(mEq/L). In the case of heart failure, nephrotic syndrome and cirrhosis sodium content are less
than ten mEq/L (Carissa, 2017).
A Day In The Dialysis Unit 6
Dry weight formula
The dry weight is the average weight of the body without any other fluid; extra fluid
causes extra strain in the body. Dialysis gets rid of excess wastes and fluids that build up in the
body in between treatments. The symptoms of dizziness, cramping or nausea are experienced
due to the removal of too much fluid; too much extra fluid in the body requires longer
hemodialysis treatments (Jack & Ravindra, 2000).
A kilogram is the standard measure of dry weight; it is equivalent to 2.2 pounds. Many
hemodialysis patients need to reduce the weight gained in each session to less than 2.2 pounds
between dialysis sessions (National Kidney Foundation, 2018).
Blood interpretations in hemodialysis
Potassium is checked before dialysis to regulate its levels during dialysis sessions. If the
levels of potassium are high, breathing problems are experienced, and this affects the regular
heartbeat. A dietician can help avoid high potassium foods if the levels are high before dialysis.
Low potassium levels require more dialysis fluid to boost the levels (Queen Elizabeth Hospital,
2017).
Bicarbonate
Bicarbonate acid reduces with kidney failure; if the level is too low, then more
bicarbonate is needed in the dialysis fluid. Levels of urea checked in blood URR, and eKt/V
values indicate the dose of dialysis you have had in a particular day. The two values are
calculated from urea levels in the blood. Urea is a toxin removed from the body by the kidneys.
Dry weight formula
The dry weight is the average weight of the body without any other fluid; extra fluid
causes extra strain in the body. Dialysis gets rid of excess wastes and fluids that build up in the
body in between treatments. The symptoms of dizziness, cramping or nausea are experienced
due to the removal of too much fluid; too much extra fluid in the body requires longer
hemodialysis treatments (Jack & Ravindra, 2000).
A kilogram is the standard measure of dry weight; it is equivalent to 2.2 pounds. Many
hemodialysis patients need to reduce the weight gained in each session to less than 2.2 pounds
between dialysis sessions (National Kidney Foundation, 2018).
Blood interpretations in hemodialysis
Potassium is checked before dialysis to regulate its levels during dialysis sessions. If the
levels of potassium are high, breathing problems are experienced, and this affects the regular
heartbeat. A dietician can help avoid high potassium foods if the levels are high before dialysis.
Low potassium levels require more dialysis fluid to boost the levels (Queen Elizabeth Hospital,
2017).
Bicarbonate
Bicarbonate acid reduces with kidney failure; if the level is too low, then more
bicarbonate is needed in the dialysis fluid. Levels of urea checked in blood URR, and eKt/V
values indicate the dose of dialysis you have had in a particular day. The two values are
calculated from urea levels in the blood. Urea is a toxin removed from the body by the kidneys.
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A Day In The Dialysis Unit 7
By calculating the levels of urea, the efficiency of the dialysis process in cleaning the blood can
be assessed. Toxins can build in the body if the levels are high before dialysis. The dialysis line
is not working correctly, or the dialysis prescription needs to be changed if the URR or eKt/V is
low. Therefore, the flow of blood should be increased (Queen Elizabeth Hospital, 2017).
Complications and management during dialysis
The most common difficulty that accompanies dialysis especially for people with
diabetes is hypotension. Hypotension leads to muscle cramps, nausea, or abdominal cramps.
Furthermore, muscle cramps are common during hemodialysis. The pain is reduced by adjusting
the prescription. Moreover, the patients have sleeping issues because breathing breaks during
sleep (Mayo Clinic, 2018).
Furthermore, anemia is a common complication of dialysis. Kidneys that have failed
cannot produce the erythropoietin hormone, which is involved in the formation of red blood
cells. Removal of vitamins and irons due to hemodialysis can also contribute to anemia (Mayo
Clinic, 2018).
Also, too much fluid between hemodialysis treatments can lead to heart failures. Also,
hemodialysis contributes to high levels of potassium ions. The kidneys are involved in the
removal of potassium ions from the body. Therefore, in the case of kidney failure, the potassium
levels in the body increases hence the heart can stop (Paweena, & Bertrand, 2017).
The Gambro AK 96 machine set up
The Gambro AK 96 machine has innovative features such as the Discan system and a
new user interface that provides consistent and reliable HD treatments. Furthermore, it has a
By calculating the levels of urea, the efficiency of the dialysis process in cleaning the blood can
be assessed. Toxins can build in the body if the levels are high before dialysis. The dialysis line
is not working correctly, or the dialysis prescription needs to be changed if the URR or eKt/V is
low. Therefore, the flow of blood should be increased (Queen Elizabeth Hospital, 2017).
Complications and management during dialysis
The most common difficulty that accompanies dialysis especially for people with
diabetes is hypotension. Hypotension leads to muscle cramps, nausea, or abdominal cramps.
Furthermore, muscle cramps are common during hemodialysis. The pain is reduced by adjusting
the prescription. Moreover, the patients have sleeping issues because breathing breaks during
sleep (Mayo Clinic, 2018).
Furthermore, anemia is a common complication of dialysis. Kidneys that have failed
cannot produce the erythropoietin hormone, which is involved in the formation of red blood
cells. Removal of vitamins and irons due to hemodialysis can also contribute to anemia (Mayo
Clinic, 2018).
Also, too much fluid between hemodialysis treatments can lead to heart failures. Also,
hemodialysis contributes to high levels of potassium ions. The kidneys are involved in the
removal of potassium ions from the body. Therefore, in the case of kidney failure, the potassium
levels in the body increases hence the heart can stop (Paweena, & Bertrand, 2017).
The Gambro AK 96 machine set up
The Gambro AK 96 machine has innovative features such as the Discan system and a
new user interface that provides consistent and reliable HD treatments. Furthermore, it has a
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A Day In The Dialysis Unit 8
standby mode that allows users to be flexible in preparation of fluid and save both the
concentrate and water. The Discan system enables Kr/V measurements and clearance
surveillance. The system allows for consistency and improved control in treatment delivery. The
system provides issuance of prescription to patients (Gambro, 2018).
The Gambro Hygienic Chain
The chain prevents bacterial growth and biofilm. Furthermore, it stops endotoxins from
getting to patients. Therefore, it reduces the occurrence of microbiological side effects,
treatment-related inflammatory episodes, and exposure to toxic disinfectant. It promotes a better
patient outcome (Gambro, 2018).
The chain has full control of the machine. Furthermore, it has traceability through the
recorded history of disinfection, maintenance programmability, full integration with water
treatment, 930 heat disinfection, a drainable single pass fluid and a UFD kit used to produce an
ultrapure dialysis fluid. This set up reduces contamination by endotoxins levels in the fluid; it has
diminished micro-inflammation and improved response to erythropoietin therapy (Gambro
2018).
Alarms reasons management
Low access pressure alarm has a pressure gauge that measure the negative pressure made
by the access pump that sucks blood from the patient and pushes it into a filter. The maximum
pressure tolerated is -250mmHg, an increase will lead to a” low access “pressure alarm. The
patient should have enough venous blood or the vascath should be checked for kink (Gambro,
2018).
standby mode that allows users to be flexible in preparation of fluid and save both the
concentrate and water. The Discan system enables Kr/V measurements and clearance
surveillance. The system allows for consistency and improved control in treatment delivery. The
system provides issuance of prescription to patients (Gambro, 2018).
The Gambro Hygienic Chain
The chain prevents bacterial growth and biofilm. Furthermore, it stops endotoxins from
getting to patients. Therefore, it reduces the occurrence of microbiological side effects,
treatment-related inflammatory episodes, and exposure to toxic disinfectant. It promotes a better
patient outcome (Gambro, 2018).
The chain has full control of the machine. Furthermore, it has traceability through the
recorded history of disinfection, maintenance programmability, full integration with water
treatment, 930 heat disinfection, a drainable single pass fluid and a UFD kit used to produce an
ultrapure dialysis fluid. This set up reduces contamination by endotoxins levels in the fluid; it has
diminished micro-inflammation and improved response to erythropoietin therapy (Gambro
2018).
Alarms reasons management
Low access pressure alarm has a pressure gauge that measure the negative pressure made
by the access pump that sucks blood from the patient and pushes it into a filter. The maximum
pressure tolerated is -250mmHg, an increase will lead to a” low access “pressure alarm. The
patient should have enough venous blood or the vascath should be checked for kink (Gambro,
2018).
A Day In The Dialysis Unit 9
The high return pressure alarm is triggered when the maximum tolerated pressure goes
above 300mmHg.The pressure gauge measures the positive pressure created by a return pump ,
which sucks blood from the filter into the patient. To, manage it; the vascath kink should not be
dislodged (Gambro, 2018).
Furthermore, when the filter is dying, the high filter pressure alarm is triggered. It goes
off when the difference between return pressure and filter pressure is higher than 250 mmHg.
The line moving to the filter should be free from kinks. Finally, the low return pressure alarm is
triggered by the return pump pressure gauge due to negative pressure, no clamp is anywhere in
order to manage it (Gambro, 2018).
The AK 96 machine has separate hardware for protection and control systems. It has a
separate AD converter, CPU board, and connecting wires. This unique design allows each
system to operate independently for higher safety. The AK 96 machine assists with automation
during priming, rinse back or patient connection. The direct access to alarm conditions and the
convenient alarm layout reduces stress in treatment (Gambro, 2018).
Conductivity
Conductivity in the dialysate fluid is composed of electrolyte concentrations, and
positively charged ions such as potassium, calcium, sodium and magnesium. It is maintained
between 12 to 16 m S/cm. The monitor of conductivity is always in contact with the dialysate
and it has two electrodes across which a constant voltage is applied. Therefore, changes in the
concentration of electrolyte would cause changes in voltage (Gambro, 2018).
The high return pressure alarm is triggered when the maximum tolerated pressure goes
above 300mmHg.The pressure gauge measures the positive pressure created by a return pump ,
which sucks blood from the filter into the patient. To, manage it; the vascath kink should not be
dislodged (Gambro, 2018).
Furthermore, when the filter is dying, the high filter pressure alarm is triggered. It goes
off when the difference between return pressure and filter pressure is higher than 250 mmHg.
The line moving to the filter should be free from kinks. Finally, the low return pressure alarm is
triggered by the return pump pressure gauge due to negative pressure, no clamp is anywhere in
order to manage it (Gambro, 2018).
The AK 96 machine has separate hardware for protection and control systems. It has a
separate AD converter, CPU board, and connecting wires. This unique design allows each
system to operate independently for higher safety. The AK 96 machine assists with automation
during priming, rinse back or patient connection. The direct access to alarm conditions and the
convenient alarm layout reduces stress in treatment (Gambro, 2018).
Conductivity
Conductivity in the dialysate fluid is composed of electrolyte concentrations, and
positively charged ions such as potassium, calcium, sodium and magnesium. It is maintained
between 12 to 16 m S/cm. The monitor of conductivity is always in contact with the dialysate
and it has two electrodes across which a constant voltage is applied. Therefore, changes in the
concentration of electrolyte would cause changes in voltage (Gambro, 2018).
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A Day In The Dialysis Unit 10
AP, VP and TMP
Venous Pressure Monitor monitors pressure in the venous drip chamber. This is a
segment that exists between the patients venous access and the drip chamber, and an extra intra
access pressure. A resistance to blood entering the venous access would lead to a positive
pressure above 0 mmHg (Gambro, 2018).
The pre blood pump immediately delivers replacement fluid to the blood circuit after it is
pulled into the circuit at site of access. Furthermore, it effectively delivers anticoagulants in the
blood circuit. It is also a form of hemofiltration that involves removal of large amounts of plasma
in dialysis (Gambro, 2018).
The Trans membrane Pressure (TMP) monitor’s the function of the filters. It rises as the
filter gets clogged with filth. However, if it rises suddenly then the filtrate line has become
clamped or kinked (Gambro, 2018).
The Water System in Hemodialysis Machines.
The success of hemodialysis depends on the availability of ultra-clean water. Water is an
essential component in providing effective and safe hemodialysis. Therefore, the dialysis system
needs an efficient water purification system .Water has an iatrogenic conversion of dialysate.
The water system is mostly out of sight for patients and staff. The dialysate is obtained from
ordinary municipal water (Centers for Disease Control, 2018)
The municipal water has a wide variety of molecules and ions, which can be toxic to
patients. For example, it has chlorine used to disinfect drinking water. Groundwater has several
ions and heavy metals such as magnesium, copper, and aluminum. Surface water has several
AP, VP and TMP
Venous Pressure Monitor monitors pressure in the venous drip chamber. This is a
segment that exists between the patients venous access and the drip chamber, and an extra intra
access pressure. A resistance to blood entering the venous access would lead to a positive
pressure above 0 mmHg (Gambro, 2018).
The pre blood pump immediately delivers replacement fluid to the blood circuit after it is
pulled into the circuit at site of access. Furthermore, it effectively delivers anticoagulants in the
blood circuit. It is also a form of hemofiltration that involves removal of large amounts of plasma
in dialysis (Gambro, 2018).
The Trans membrane Pressure (TMP) monitor’s the function of the filters. It rises as the
filter gets clogged with filth. However, if it rises suddenly then the filtrate line has become
clamped or kinked (Gambro, 2018).
The Water System in Hemodialysis Machines.
The success of hemodialysis depends on the availability of ultra-clean water. Water is an
essential component in providing effective and safe hemodialysis. Therefore, the dialysis system
needs an efficient water purification system .Water has an iatrogenic conversion of dialysate.
The water system is mostly out of sight for patients and staff. The dialysate is obtained from
ordinary municipal water (Centers for Disease Control, 2018)
The municipal water has a wide variety of molecules and ions, which can be toxic to
patients. For example, it has chlorine used to disinfect drinking water. Groundwater has several
ions and heavy metals such as magnesium, copper, and aluminum. Surface water has several
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A Day In The Dialysis Unit 11
organic compounds from animal waste and farm runoffs. Water needs to be converted to a
dialysate using a series of carbon tanks, deionizers and reverse osmosis (Culligan, 2018).
Carbon Tank
A carbon tank removes chloramine and chlorine from water, which is added to disinfect
water. Chlorine affects the patient’s blood since it forms sodium hypochlorite. Furthermore, it
diffuses into the patient where it causes neurologic abnormalities and hemolysis. Moreover,
chlorine damages the reverse osmosis equipment. Therefore, carbon filters protect both the
machine and the patient (Culligan, 2018).
The first carbon tank removes 100 % of chloramine. Kidney doctors check chloramine
levels every four hours in water that exist the first carbon tank. The allowed concentration is 0.1
parts per million. The second carbon tank is used as a backup when the first tank fails (Culligan,
2018).
Reverse Osmosis Tank
It is the main workhouse of the water treatment system. It moves water through porous
membranes, which is against the solute concentration gradient. Water runs from a low solute
concentration region to a higher concentration region during osmosis. However, reverse osmosis
is the opposite of osmosis with movement from a high concentration to a low solute
concentration. It requires a lot of energy from a pressurized tank. The permeate will be free of
organic compounds, ions, viruses, and bacteria (Culligan, 2018).
organic compounds from animal waste and farm runoffs. Water needs to be converted to a
dialysate using a series of carbon tanks, deionizers and reverse osmosis (Culligan, 2018).
Carbon Tank
A carbon tank removes chloramine and chlorine from water, which is added to disinfect
water. Chlorine affects the patient’s blood since it forms sodium hypochlorite. Furthermore, it
diffuses into the patient where it causes neurologic abnormalities and hemolysis. Moreover,
chlorine damages the reverse osmosis equipment. Therefore, carbon filters protect both the
machine and the patient (Culligan, 2018).
The first carbon tank removes 100 % of chloramine. Kidney doctors check chloramine
levels every four hours in water that exist the first carbon tank. The allowed concentration is 0.1
parts per million. The second carbon tank is used as a backup when the first tank fails (Culligan,
2018).
Reverse Osmosis Tank
It is the main workhouse of the water treatment system. It moves water through porous
membranes, which is against the solute concentration gradient. Water runs from a low solute
concentration region to a higher concentration region during osmosis. However, reverse osmosis
is the opposite of osmosis with movement from a high concentration to a low solute
concentration. It requires a lot of energy from a pressurized tank. The permeate will be free of
organic compounds, ions, viruses, and bacteria (Culligan, 2018).
A Day In The Dialysis Unit 12
Deionizer Tank (DI)
It is an optional component during water treatment. Most hemodialysis units rarely use
DI tanks because the RO tank removes all ions, solutes, and microorganisms. The DI tank works
when the RO breaks down due to a mechanical failure. Therefore, water must pass through the
DI tank for H+ and OH- ion exchange. The DI tank exchanges these ions for the cations and
anions found in water, an ultra-filter must be fixed to sterilize the water since it does not sterilize
water (Culligan, 2018).
Patient education
Patient education is essential in dialysis. The patient learns various aspects of their
conditions and the suitable treatment options. Patients get e educated about dialysis and why they
need dialysis. Also, the patients get education information about surgery (Castner, 2008).
Furthermore, the patients are educated on the types of dialysis that is suitable for them
depending on their lifestyle and health; this can produce proper choices. Moreover, the patients
go to organizations where they can find more support and learn about kidney disease and dialysis
such as the National Kidney Foundation. Dialysis centers have free classes for various dialysis
choices. The patients can also ask their nephrologists about support groups and classes in their
areas.
References
Blowey, D. (2005) Dialysis principles for primary healthcare providers. Clinical Pediatrics
Journal, 44(1): 19-27.
Deionizer Tank (DI)
It is an optional component during water treatment. Most hemodialysis units rarely use
DI tanks because the RO tank removes all ions, solutes, and microorganisms. The DI tank works
when the RO breaks down due to a mechanical failure. Therefore, water must pass through the
DI tank for H+ and OH- ion exchange. The DI tank exchanges these ions for the cations and
anions found in water, an ultra-filter must be fixed to sterilize the water since it does not sterilize
water (Culligan, 2018).
Patient education
Patient education is essential in dialysis. The patient learns various aspects of their
conditions and the suitable treatment options. Patients get e educated about dialysis and why they
need dialysis. Also, the patients get education information about surgery (Castner, 2008).
Furthermore, the patients are educated on the types of dialysis that is suitable for them
depending on their lifestyle and health; this can produce proper choices. Moreover, the patients
go to organizations where they can find more support and learn about kidney disease and dialysis
such as the National Kidney Foundation. Dialysis centers have free classes for various dialysis
choices. The patients can also ask their nephrologists about support groups and classes in their
areas.
References
Blowey, D. (2005) Dialysis principles for primary healthcare providers. Clinical Pediatrics
Journal, 44(1): 19-27.
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