This document provides instructions for commencing an intravenous infusion and taking a blood sample. It defines intravenous infusion as introducing fluids into the circulation through a vein in the forearm, scalp, elbow or ankle. The reasons for and indications of intravenous infusion are outlined. The required equipment is listed, including cannulas, giving sets, and fluid bags/bottles. Step-by-step procedures are provided for setting up an intravenous infusion and taking a blood sample safely and correctly. Documentation and calculations are also described.
This presentation provides an overview of intravenous (IV) infusion. It discusses what an IV infusion is, the history of IV technology, equipment used, and the procedure for IV infusion. The procedure involves selecting a vein, preparing the site, inserting a cannula, attaching tubing to deliver the fluid or medication at a regulated flow rate, and securing and monitoring the site. The document also covers pharmacokinetic concepts like zero-order and first-order drug elimination, calculating elimination rate constants, and using a loading dose to rapidly achieve steady state drug concentrations when combining IV infusion with bolus doses. Main advantages of IV infusion are rapid delivery and 100% bioavailability while disadvantages include potential for pain, infection and coagulation issues.
Intravenous infusion therapy involves delivering fluids, medications, blood or nutrients directly into a patient's vein. It is used for unconscious patients, to maintain electrolyte balance or provide fluids that cannot be taken orally. The main types of IV solutions are isotonic, hypotonic, and hypertonic. Isotonic solutions have the same osmotic pressure as blood, while hypotonic solutions are weaker and hypertonic solutions are stronger. Potential complications include infiltration of fluid into tissues, phlebitis, infection, air embolism, or fluid overload. Factors like IV tubing position, needle placement in the vein, and flow rate can also affect the procedure.
Cannulation is an emergency procedure to access veins by exposing the vein and inserting a cannula under direct vision. It is used for trauma and hypovolemic shock patients to gain vascular access. Intravenous (IV) therapy delivers medications, fluids, blood transfusions, and chemotherapy directly into veins. Advantages include immediate effect, controlled administration, and avoidance of pain compared to other routes. Possible complications are hematoma, thrombophlebitis, cellulitis, systemic infection, and infiltration/extravasation. The lecture discusses sites for IV cannulation in upper extremities like hand and forearm veins, signs of good veins, veins to avoid, and gauges of IV cannulas.
This document provides instructions for commencing an intravenous infusion and taking a blood sample. It defines intravenous infusion as introducing fluids into the circulation through a vein in the forearm, scalp, elbow or ankle. The reasons for and indications of intravenous infusion are outlined. The required equipment is listed, including cannulas, giving sets, and fluid bags/bottles. Step-by-step procedures are provided for setting up an intravenous infusion and taking a blood sample safely and correctly. Documentation and calculations are also described.
This presentation provides an overview of intravenous (IV) infusion. It discusses what an IV infusion is, the history of IV technology, equipment used, and the procedure for IV infusion. The procedure involves selecting a vein, preparing the site, inserting a cannula, attaching tubing to deliver the fluid or medication at a regulated flow rate, and securing and monitoring the site. The document also covers pharmacokinetic concepts like zero-order and first-order drug elimination, calculating elimination rate constants, and using a loading dose to rapidly achieve steady state drug concentrations when combining IV infusion with bolus doses. Main advantages of IV infusion are rapid delivery and 100% bioavailability while disadvantages include potential for pain, infection and coagulation issues.
Intravenous infusion therapy involves delivering fluids, medications, blood or nutrients directly into a patient's vein. It is used for unconscious patients, to maintain electrolyte balance or provide fluids that cannot be taken orally. The main types of IV solutions are isotonic, hypotonic, and hypertonic. Isotonic solutions have the same osmotic pressure as blood, while hypotonic solutions are weaker and hypertonic solutions are stronger. Potential complications include infiltration of fluid into tissues, phlebitis, infection, air embolism, or fluid overload. Factors like IV tubing position, needle placement in the vein, and flow rate can also affect the procedure.
Cannulation is an emergency procedure to access veins by exposing the vein and inserting a cannula under direct vision. It is used for trauma and hypovolemic shock patients to gain vascular access. Intravenous (IV) therapy delivers medications, fluids, blood transfusions, and chemotherapy directly into veins. Advantages include immediate effect, controlled administration, and avoidance of pain compared to other routes. Possible complications are hematoma, thrombophlebitis, cellulitis, systemic infection, and infiltration/extravasation. The lecture discusses sites for IV cannulation in upper extremities like hand and forearm veins, signs of good veins, veins to avoid, and gauges of IV cannulas.
The document discusses the nurse's role in IV therapy. It covers several topics:
1) Ensuring IV fluids and accessories are sterile and free of microbes to prevent contamination that can cause infections.
2) Proper use and disinfection of infusion equipment like luer locks, needleless connectors, filters, flow control devices, and tourniquets.
3) Best practices for site care and maintenance like set change frequency and flushing/locking IV lines to minimize infection risk.
This document discusses intravenous (IV) therapy, complications that can arise, and best practices for prevention. It notes that 85% of hospitalized patients receive IV therapy, with 118 million catheters inserted yearly. Complications include phlebitis, infiltration, extravasation, and infection. Proper catheter and site selection, sterile technique, and regular site inspection can help prevent complications. Infection is a serious risk, with over 60,000 deaths annually from bloodstream infections related to IV therapy in the US.
This document discusses intravenous (IV) fluid therapy, including its goals, components, monitoring, and complications. The goals of IV therapy are to correct or prevent fluid and electrolyte imbalances. It is important to administer the correct IV solution, have the proper equipment, and monitor the infusion rate. Nurses must also monitor for problems, identify issues, and take corrective action if needed. Complications of IV therapy include infiltration, air embolism, infection, and fluid overload. Close observation of the patient and IV site is necessary to detect any abnormalities or adverse reactions.
This document provides information about IV therapy including IV administration, solutions, equipment, sites, procedures, documentation, complications, and calculations. It discusses administering IVs into the circulatory system using various methods. It also covers hanging IV bags, priming tubing, inserting catheters, documenting the process, maintaining flow rates, converting to intermittent therapy, and addressing potential complications.
The document discusses essential questions to consider before prescribing intravenous fluids, including whether the patient needs fluids, if it is for resuscitation, replacement, or maintenance, assessing the patient's electrolyte status, determining the safest administration route, and choosing the appropriate fluid. It also covers fluid physiology, types of IV fluids, principles of fluid prescribing, risks of overhydration, monitoring patients, and comparing crystalloids versus colloids. The key aspects are determining the clinical need and goals of fluid therapy, conducting an electrolyte assessment, choosing a simple and safe administration method, and selecting the fluid that best matches the patient's condition and needs.
The 10 rights of medication administration are: 1) right medication, 2) right dose, 3) right time, 4) right route, 5) right patient, 6) right patient education, 7) right documentation, 8) right to refuse, 9) right assessment, and 10) right evaluation.
This document outlines the responsibilities, objectives, and content for an Intravenous Therapy Course. The key points are:
- Learners must follow responsibilities like being on time, signing in, no eating/drinking in class, and having phones on silent mode.
- Objectives include understanding IV therapy foundations, differentiating IV solutions and complications, demonstrating IV procedures, and calculating flow rates.
- The content will discuss the history of IV therapy, standards, infection control, continuous/intermittent infusion methods, and demonstrating IV skills like venipuncture and documentation.
The document outlines the 10 rights of medication administration that nurses must follow to safely administer medications to patients. These include always verifying the patient's identity, medication, dosage, and route before administering and documenting properly after administering. Nurses must also inform patients and their representatives about the medication and obtain consent when possible.
This document provides guidelines for safely administering IV therapy and IV medications. It outlines the 10 golden rules for administering drugs safely, including administering the right drug to the right patient at the right dose and time. It then details the proper procedures for setting up an IV, inserting an IV cannula, discontinuing an IV infusion, and incorporating IV medications into the IV line or bottle. The overall aim is to protect patients and avoid medication errors by carefully following these protocols at each step of IV administration and therapy.
This document discusses types of intravenous (IV) fluids and their uses. It defines IV fluids as solutions administered directly into the venous circulation to provide fluids, electrolytes, medications, or blood products. The document outlines the main types of IV fluids as colloids, which remain in blood vessels, and crystalloids, which disperse more widely. Isotonic, hypotonic, and hypertonic crystalloid solutions are described based on their concentration relative to body fluids. Common indications for IV therapy and nursing considerations like assessment, administration, and monitoring are summarized. Potential complications of IV therapy including infection, infiltration, and electrolyte imbalances are also reviewed.
Intravenous fluids crystalloids and colloidsomar143
Dr. Omar Kamal Ansari from the department of anaesthesiology discusses intravenous fluid therapy. He describes various types of intravenous fluids including crystalloids like normal saline and Ringer's lactate, colloids like albumin and hetastarch, and discusses their indications, contraindications, and complications. He also discusses fluid requirements, osmolality, electrolyte balances, and principles of intravenous fluid administration.
Intravenous (IV) therapy involves infusing liquid substances directly into the vein. It is used to replace fluids and electrolytes, maintain fluid balance, administer medications and blood products, provide nutrition, and monitor cardiac function. There are several types of IV fluids based on their tonicity - isotonic fluids like saline maintain fluid balance, hypotonic fluids hydrate cells by pulling fluid into them, and hypertonic fluids draw fluid out of cells. Buffers are used to correct acid-base imbalances, while other IV medications and nutrients cannot be given orally. Careful monitoring is needed with IV therapy to prevent complications like fluid overload, electrolyte disturbances, or circulatory issues.
Basic Intravenous Therapy 3: Fluids And Electrolytes, Balance and Imbalance, ...Ronald Magbitang
Lecture Presentation in Basic Intravenous Therapy Seminar, discussion on Body Fluids and Electrolytes, Normal Values and the Imbalances, the symptomatology and treatment and precautions, and, finally the different types of commonly available, utilized IVF in clinics
presentation of the statistic evaluation of mozart's anniversary year 2006 - statistics class - university of applied sciences salzburg [language: german]
This document provides information about medication administration by nurses. It discusses key responsibilities of nurses including having thorough knowledge of the medications being administered, ensuring the right patient, drug, dose, route, time and frequency. It covers drug classifications, effects, interactions and incompatibilities. The document also reviews the nursing process for safe administration including assessment, diagnosis, planning intervention and evaluation. Different routes of medication administration such as oral, parenteral, topical and inhalation are explained.
This document discusses fluid and electrolyte balance in the body. It explains that body fluids contain different solutes and electrolyte concentrations are maintained through selective membrane permeability. Fluid movement in the body is influenced by pressures and permeability and ensures nutrients and waste are exchanged. There are three main types of IV solutions - isotonic, hypotonic, and hypertonic - which are used to correct fluid imbalances depending on their osmolarity. Crystalloids like saline are effective short term volume expanders while colloids draw fluid from tissues into vessels but can cause circulatory overload if given in excess. Monitoring for fluid overload is important when giving any IV solutions.
Iv fluid therapy (types, indications, doses calculation)kholeif
Intravenous fluid therapy is essential for maintaining normal body functioning and hydration. There are three main types of intravenous fluids - colloids, crystalloids, and blood products. Crystalloids include isotonic fluids like 0.9% sodium chloride and lactated Ringer's solution, hypotonic fluids, and hypertonic fluids. Isotonic fluids maintain intravascular volume while hypotonic and hypertonic fluids shift fluid between intravascular and intracellular spaces. Close monitoring is needed with intravenous fluid therapy to avoid complications of overhydration or dehydration.
The document discusses the nurse's role in IV therapy. It covers several topics:
1) Ensuring IV fluids and accessories are sterile and free of microbes to prevent contamination that can cause infections.
2) Proper use and disinfection of infusion equipment like luer locks, needleless connectors, filters, flow control devices, and tourniquets.
3) Best practices for site care and maintenance like set change frequency and flushing/locking IV lines to minimize infection risk.
This document discusses intravenous (IV) therapy, complications that can arise, and best practices for prevention. It notes that 85% of hospitalized patients receive IV therapy, with 118 million catheters inserted yearly. Complications include phlebitis, infiltration, extravasation, and infection. Proper catheter and site selection, sterile technique, and regular site inspection can help prevent complications. Infection is a serious risk, with over 60,000 deaths annually from bloodstream infections related to IV therapy in the US.
This document discusses intravenous (IV) fluid therapy, including its goals, components, monitoring, and complications. The goals of IV therapy are to correct or prevent fluid and electrolyte imbalances. It is important to administer the correct IV solution, have the proper equipment, and monitor the infusion rate. Nurses must also monitor for problems, identify issues, and take corrective action if needed. Complications of IV therapy include infiltration, air embolism, infection, and fluid overload. Close observation of the patient and IV site is necessary to detect any abnormalities or adverse reactions.
This document provides information about IV therapy including IV administration, solutions, equipment, sites, procedures, documentation, complications, and calculations. It discusses administering IVs into the circulatory system using various methods. It also covers hanging IV bags, priming tubing, inserting catheters, documenting the process, maintaining flow rates, converting to intermittent therapy, and addressing potential complications.
The document discusses essential questions to consider before prescribing intravenous fluids, including whether the patient needs fluids, if it is for resuscitation, replacement, or maintenance, assessing the patient's electrolyte status, determining the safest administration route, and choosing the appropriate fluid. It also covers fluid physiology, types of IV fluids, principles of fluid prescribing, risks of overhydration, monitoring patients, and comparing crystalloids versus colloids. The key aspects are determining the clinical need and goals of fluid therapy, conducting an electrolyte assessment, choosing a simple and safe administration method, and selecting the fluid that best matches the patient's condition and needs.
The 10 rights of medication administration are: 1) right medication, 2) right dose, 3) right time, 4) right route, 5) right patient, 6) right patient education, 7) right documentation, 8) right to refuse, 9) right assessment, and 10) right evaluation.
This document outlines the responsibilities, objectives, and content for an Intravenous Therapy Course. The key points are:
- Learners must follow responsibilities like being on time, signing in, no eating/drinking in class, and having phones on silent mode.
- Objectives include understanding IV therapy foundations, differentiating IV solutions and complications, demonstrating IV procedures, and calculating flow rates.
- The content will discuss the history of IV therapy, standards, infection control, continuous/intermittent infusion methods, and demonstrating IV skills like venipuncture and documentation.
The document outlines the 10 rights of medication administration that nurses must follow to safely administer medications to patients. These include always verifying the patient's identity, medication, dosage, and route before administering and documenting properly after administering. Nurses must also inform patients and their representatives about the medication and obtain consent when possible.
This document provides guidelines for safely administering IV therapy and IV medications. It outlines the 10 golden rules for administering drugs safely, including administering the right drug to the right patient at the right dose and time. It then details the proper procedures for setting up an IV, inserting an IV cannula, discontinuing an IV infusion, and incorporating IV medications into the IV line or bottle. The overall aim is to protect patients and avoid medication errors by carefully following these protocols at each step of IV administration and therapy.
This document discusses types of intravenous (IV) fluids and their uses. It defines IV fluids as solutions administered directly into the venous circulation to provide fluids, electrolytes, medications, or blood products. The document outlines the main types of IV fluids as colloids, which remain in blood vessels, and crystalloids, which disperse more widely. Isotonic, hypotonic, and hypertonic crystalloid solutions are described based on their concentration relative to body fluids. Common indications for IV therapy and nursing considerations like assessment, administration, and monitoring are summarized. Potential complications of IV therapy including infection, infiltration, and electrolyte imbalances are also reviewed.
Intravenous fluids crystalloids and colloidsomar143
Dr. Omar Kamal Ansari from the department of anaesthesiology discusses intravenous fluid therapy. He describes various types of intravenous fluids including crystalloids like normal saline and Ringer's lactate, colloids like albumin and hetastarch, and discusses their indications, contraindications, and complications. He also discusses fluid requirements, osmolality, electrolyte balances, and principles of intravenous fluid administration.
Intravenous (IV) therapy involves infusing liquid substances directly into the vein. It is used to replace fluids and electrolytes, maintain fluid balance, administer medications and blood products, provide nutrition, and monitor cardiac function. There are several types of IV fluids based on their tonicity - isotonic fluids like saline maintain fluid balance, hypotonic fluids hydrate cells by pulling fluid into them, and hypertonic fluids draw fluid out of cells. Buffers are used to correct acid-base imbalances, while other IV medications and nutrients cannot be given orally. Careful monitoring is needed with IV therapy to prevent complications like fluid overload, electrolyte disturbances, or circulatory issues.
Basic Intravenous Therapy 3: Fluids And Electrolytes, Balance and Imbalance, ...Ronald Magbitang
Lecture Presentation in Basic Intravenous Therapy Seminar, discussion on Body Fluids and Electrolytes, Normal Values and the Imbalances, the symptomatology and treatment and precautions, and, finally the different types of commonly available, utilized IVF in clinics
presentation of the statistic evaluation of mozart's anniversary year 2006 - statistics class - university of applied sciences salzburg [language: german]
This document provides information about medication administration by nurses. It discusses key responsibilities of nurses including having thorough knowledge of the medications being administered, ensuring the right patient, drug, dose, route, time and frequency. It covers drug classifications, effects, interactions and incompatibilities. The document also reviews the nursing process for safe administration including assessment, diagnosis, planning intervention and evaluation. Different routes of medication administration such as oral, parenteral, topical and inhalation are explained.
This document discusses fluid and electrolyte balance in the body. It explains that body fluids contain different solutes and electrolyte concentrations are maintained through selective membrane permeability. Fluid movement in the body is influenced by pressures and permeability and ensures nutrients and waste are exchanged. There are three main types of IV solutions - isotonic, hypotonic, and hypertonic - which are used to correct fluid imbalances depending on their osmolarity. Crystalloids like saline are effective short term volume expanders while colloids draw fluid from tissues into vessels but can cause circulatory overload if given in excess. Monitoring for fluid overload is important when giving any IV solutions.
Iv fluid therapy (types, indications, doses calculation)kholeif
Intravenous fluid therapy is essential for maintaining normal body functioning and hydration. There are three main types of intravenous fluids - colloids, crystalloids, and blood products. Crystalloids include isotonic fluids like 0.9% sodium chloride and lactated Ringer's solution, hypotonic fluids, and hypertonic fluids. Isotonic fluids maintain intravascular volume while hypotonic and hypertonic fluids shift fluid between intravascular and intracellular spaces. Close monitoring is needed with intravenous fluid therapy to avoid complications of overhydration or dehydration.
13. OSCAR
Linge de lit Oscar galet en percale imprimée 80 fils/cm². Réversibilité en chevrons coordonnés.
Printed percale bedlinen, 200 threads/inch, Oscar ‘galet’. Reverse printed in coordinated herringbones.
Éponges jacquard Oscar galet. Kimono jacquard Oscar galet.
Jacquard terry towels Oscar ‘galet’. Jacquard kimono Oscar ‘galet’.
Coussin tricot Torsade améthyste, 30x50 cm. Plaid Marmotte encre, 130x170, 180x220 cm.
Knitted cushion Torsade ‘améthyste’. Throw Marmotte ‘encre’.
Couvre-lit Oscar galet, 240x260 cm.
Bedcover Oscar ‘galet’.
13
14. ALPETTE
Linge de lit Alpette blanc en percale imprimée 80 fils/cm². Réversibilité imprimée flocons.
Printed percale bedlinen, 200 threads/inch, Alpette’blanc’. Reverse printed in edelweiss motifs.
Éponges brodées Alpette rouge. Kimono brodé Alpette rouge.
Embroidered terry towels Alpette ‘rouge’. Embroidered kimono Alpette ‘rouge’.
Coussin Ski et bas de porte Lombarde brodés gris, Coussin brodé Davos rouge, 30x40 cm.
42x42 cm,18x90 cm. Embroidered cushion Davos ‘rouge’.
Embroidered cushion Ski and door stopper Lombarde ‘gris’.
Coussins et plaids Ours blanc et Puma argenté. Plaid Poudreuse gris clair, 130x180 cm.
Cushions and throws Ours ‘blanc’ and Puma ‘argenté’. Throw Poudreuse ‘gris clair’.
14
19. ALCÔVE
Parure en percale unie 80 fils/cm², finition jour picot, 20 coloris.
Plain percale 200 threads/inch bed set with picot hemstitch, 20 colours.
potiron
rouge
aubergine
azalée
moka
bois de rose
ivoire
rose
chanvre
aqua
turquoise
ciel
blanc
lavande
parme
noisette
perle
ardoise
marine
noir
19
20. Sari Loti
Paravent Grenade
Tous les modèles sont en percale impri-
mée 80 fils à l’exception du modèle Pa-
ravent (satin de coton 90 fils imprimé).
All sets are in printed percale 200TC except
Paravent (233TC cotton satin).
20 Laponie
21. COUETTES & OREILLERS en duvet et plumes neufs de fabrication française ou en fibres creuses siliconnées fabriquées en Europe.
DUVET & PILLOWS in new down and feathers made in France and siliconed hollow fibres made in Europe.
21
22. DIVINE
Éponges en 100% coton longues fibres «low-twist» 450gr/m².
Terry towels in 100% cotton long fibres low twist 450 gr/m².
rouge
mandarine
blush
figue
jean
nuage
neige
écru
sable
perle
ficelle
noir
22
23. SCALA
Éponges en 100% coton peigné Égypte longues fibres 600gr/m².
Terry towels in 100% Egyptian combed cotton long fibres 600gr/m².
azalée
tendre
turquoise
azur
touareg
sauge
argent
blanc
lin
taupe
acier
encre
23
24. Photos : Matthieu Carpentier et Caroline Menne / Stylisme photo : Isabelle Laforge.
BUREAU - SHOWROOM
28, rue de la Tannerie BP 90009
F 59481 Haubourdin Cedex
Tél. 03 20 38 87 00
Fax.03 20 38 87 29
E-mail : contact@olivierdesforges.fr
CONTACT PRESSE
Patricia Laborde
10, rue de la Pépinière
75008 PARIS
Tél. 01 42 94 89 94
Email : plaborde@yvesdelorme.fr
CONTACT GB
The French Linen Company
Unit 7/8 - The Vale Ind. Centre
Southern Road - AYLESBURY
GB - BUCKS HP19 9EP
Tél. (+44) 1296 394 980
CONTACT CH
La Maison de Domitille Co. Ltd
Capital Mansion, Room 2307
No.6 Xin Yuan Nan Road
Chaoyang district,
Beijing 100004 CHINA
Tél. (+86) 1084 863 235
CONTACT DE
FBB Interieurs GmbH & Co KG
Carl-Zeiss-Str. 3
63755 ALZENAU
Tél. (+49) 6023 966 212
www.olivierdesforges.fr
Tous nos remerciements aux sociétés Pouenat (www.pouenat.fr), Cuir au carré (www.cuiraucarre.com), Steiner (www.steiner-paris.com), Codimat
(www.codimatcollection.com), Now’s home (www.nowshome.fr ) et Verpan (www.verpan.dk) pour leur collaboration à ce catalogue.