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A low-birth-weight (LBW) infant is an infant that weighs less than 2500 g at birth. The weight of all infants must be measured at birth so that low-birth-weight infants can be identified.
A low birth weight infant weighs less than 2500 g at birth.
Because these infants are at an increased risk of problems and may need more than primary care. All low-birth-weight infants must be carefully assessed after birth.
Low-birth-weight infants are at an increased risk of problems and may need special care.
Most infants weigh between 2500 g and 4000 g at birth. However, some infants have a low birth weight (less than 2500 g) as a result of one or both of the following 2 important problems during pregnancy:
The gestational age of an infant is measured from the first day of the mother’s last normal menstrual period to the day of delivery. The average gestational age is 40 weeks (280 days) with a range of 37 weeks (259 days) to 42 weeks (293 days). Infants with a gestational age between 37 and 42 weeks are called term infants. Preterm infants are born before 37 weeks while post-term infants are born after 42 weeks.
Any infant born before 37 weeks (i.e. preterm) is regarded as being born too soon. About 5% of all infants are born preterm in a wealthy community and often more than 20% in a poor community.
Preterm infants are born before 37 weeks.
Infants with a birth weight which is less than expected for their gestational age are called underweight-for-gestational-age infants. When plotted on a birth-weight-for-gestational-age chart (a fetal growth chart), underweight-for-gestational-age infants have a birth weight which falls below the 10th centile. Normally grown infants (appropriate for their gestational age) have a birth weight between the 10th and 90th centiles.
Underweight-for-gestational-age infants have a birth weight below the 10th centile.
Infants may be underweight-for-gestational-age because of one or both of the following:
Infants that have been growing too slowly during pregnancy have a birth weight, length and head circumference that fall below the 10th centile (length is not routinely recorded as it is difficult to measure accurately). Therefore, all their measurements are less than would be expected for their gestational age.
These small infants are called growth-restricted infants as they have suffered fetal growth restriction (used to be called intra-uterine growth retardation). It is very useful to measure the head circumference of all underweight-for-gestational-age infants because it helps to identify those infants who are growth restricted (grown too slowly).
In poor communities the commonest cause of low birth weight is slow fetal growth.
Growth-restricted infants have both a birth weight and a head circumference below the 10th centile.
Some infants lose weight in the last few weeks of pregnancy because the placenta is not supplying them with enough food from the mother. As a result of the weight lost, these infants have loose, dry, peeling skin and thin arms and legs at birth. They look as if they have been starved and are called wasted infants. Post-term infants are often wasted. Weight loss (wasting) during the last weeks of pregnancy can therefore be identified by examining the infant.
If only the infant’s weight, but not head circumference, is below the 10th centile then the infant is wasted but not growth restricted. Therefore, they are thin and underweight for their size.
Some infants have a low birth weight because of 2 or more of these fetal problems, e.g. they may be born too soon (preterm) and also have grown too slowly (growth restricted). Other low-birth-weight infants may have grown too slowly and then lost weight in the last few weeks of pregnancy (wasted).
Infants are no longer described as premature, post-mature or dysmature as these descriptions are difficult to define and only cause confusion.
These infants have immature organs because they are born too soon. Most of the complications in preterm infants are because of organ immaturity. They are also small and fragile and can therefore be easily damaged during labour and delivery.
The common neonatal complications in infants born preterm are:
Less common complications are infection, periventricular haemorrhage in the brain, bruising of the skin and patent ductus arteriosus.
Preterm infants are at high risk of many complications after birth and need special care. Many preterm infants die as a result of these complications, especially if they are not correctly managed.
Preterm infants often have immature organs.
There are both maternal and fetal causes which may result in the birth of an underweight-for-gestational-age infant:
However, in many cases no obvious cause can be found. Maternal height and race alone probably have little effect on fetal growth. An abnormal placenta is rarely the primary cause of slow fetal growth or wasting.
Pregnant women should have a good diet and not smoke or drink alcohol.
All underweight-for-gestational-age infants, whether they have grown too slowly or are wasted or both, are at an increased risk during the first weeks of life because they have often received too little food and oxygen during pregnancy. As a result, underweight-for-gestational-age infants commonly have the following complications:
Because the causes and complications of these two conditions may be different. They often have different clinical problems which need different forms of management. However, some complications, such as poor breathing at birth, hypothermia and hypoglycaemia, are common in both preterm and underweight-for-gestational-age infants.
Unless the infant is extremely small with fused eyes, it should be regarded as possibly viable and actively managed. With good emergency management and good transport many very small infants can survive without long-term complications.
The normal temperature of a newborn infant is 36.0 °C to 36.5 °C, if the abdominal skin temperature is taken, and 36.5 °C to 37.0 °C, if a digital (or low-reading mercury) thermometer is placed in the axilla (armpit). If either temperature is lower than the normal range (36.0 °C for skin temperature or 36.5 °C for axillary temperature) the infant has hypothermia. A body temperature below 35 °C is particularly dangerous. It is very important to prevent hypothermia, which causes many clinical problems and can kill the infant in severe cases.
A woollen cap prevents heat loss from an infant’s head.
The best environmental (room or incubator) temperature depends on:
The environmental temperature for each infant should be adjusted in order to give a normal abdominal skin or axillary temperature. This can be achieved automatically if a servo-controlled incubator is used. Skin-to-skin care will also provide the infant with the correct temperature. Infants of 1500 g need an incubator temperature of about 35.0 ºC during the first few days after delivery.
The infant’s energy and oxygen needs are lowest when the skin temperature is normal and the infant is nursed at the correct environmental temperature. Both energy and oxygen needs increase if the infant’s skin temperature is either above or below normal.
The environmental temperature should be adjusted to give a skin temperature of 36–36.5 ºC.
There are a number of ways to keep an infant warm:
A woollen cap and perspex heat shield reduces heat loss when infants are nursed in an incubator.
The most appropriate method should be chosen for each individual. There is no excuse for an infant ever becoming cold because hypothermia is preventable.
Hypothermia can be prevented by skin-to-skin care.
The normal concentration of glucose in the blood of newborn infants is 2.5 mmol/l to 7.0 mmol/l. (These levels are less than those for serum glucose). It is best to keep the blood glucose concentration above 3.0 mmol/l.
A blood glucose concentration below 2.5 mmol/l is abnormal and therefore defined as hypoglycaemia. Many infants with mild hypoglycaemia will have no abnormal clinical signs. Therefore blood screening is important to identify these infants before they develop severe hypoglycaemia and convulsion which can lead to brain damage or death.
Hypoglycaemia is defined as a blood glucose concentration below 2.5 mmol/l.
The quickest, cheapest and easiest method to measure the blood glucose concentration in the nursery is to use reagent strips such as Hemo-Glukotest, Glucotrend or Accuchek Active. Only a drop of blood is needed for a reagent strip. After a minute it is either wiped off with cotton wool or washed off with water and then blotted dry, depending on the reagent strip used. The colour of the reagent strip is then compared to the colour range on the bottle to determine the blood glucose concentration. A far more accurate method to screen for hypoglycaemia is to read the colour of the reagent strip with a glucose meter. Read Hemoglukotest strips with a Reflex meter and Glucotrend or Accuchek Active strip with a Accuchek meter.
Infants that have reduced energy stores or reduced energy intake and infants with increased energy needs are at risk of hypoglycaemia.
Infants with reduced energy stores of glycogen in the liver, protein in muscles, and fat under the skin include:
Infants with increased energy needs include:
Hypothermia causes hypoglycaemia.
The following steps must be taken to prevent hypoglycaemia:
Early feeding with milk usually prevents hypoglycaemia.
Apnoea is stopping breathing for long enough to cause bradycardia together with cyanosis or pallor. Usually apnoea for 20 seconds or longer is needed to produce these clinical signs. The infant may have a single apnoeic attack, but usually the episodes of apnoea are repeated.
In some preterm infants the respiratory centre in the brain is immature and this results in repeated attacks of apnoea. This is called apnoea of immaturity. These infants are usually less than 34 weeks of gestation. Less commonly, apnoea may be caused by respiratory distress, infection, hypoxia, hypothermia, hypoglycaemia or convulsions.
Apnoea should not be confused with periodic breathing, which is a normal pattern of breathing in preterm infants. Infants with periodic breathing frequently stop breathing for less than 20 seconds, which is not long enough to cause bradycardia, cyanosis or pallor.
Apnoea can be detected with the aid of an apnoea monitor, which is usually set to trigger if the infant does not breathe for 20 seconds.
Apnoea of immaturity can be largely prevented and treated with the use of oral theophylline or caffeine. This is best done in a level 2 or 3 unit where prophylactic theophylline or caffeine is given routinely to all infants born before 34 weeks of gestation and can usually be stopped at 35 weeks. An overdose of theophylline presents with tachycardia, vomiting or convulsions. Caffeine is safer but unfortunately is not available as a liquid in South Africa and has to be made up from tablets.
During an attack of apnoea, breathing can be restarted in most cases by simply stimulating the infant. Infants with repeated apnoea in spite of theophylline should be referred to a level 2 or 3 hospital for investigation and management. They may need mask-and-bag ventilation while being transported.
It is dangerous to give head box oxygen to infants with apnoea of immaturity, as they do not need oxygen.
The daily fluid requirements of an infant depends on:
Most infants need:
Note that the fluid requirements are given in ml per kg body weight, and that they increase gradually from day 1 to day 5. After day 5 there is no further increase in the daily fluid needs per kg body weight. As the infant’s weight increases, so the total amount of fluid a day will increase although the amount of fluid per kg remains constant at 150 ml/kg. Only rarely do infants need more than 150 ml/kg if they are kept warm and well dressed.
These daily fluid volumes meet the need of both normal and low-birth-weight infants. They are used when infants receive either oral or intravenous fluids. The fluid volumes needed by breastfeeding infants do not need to be calculated as they are met by the increasing milk production by the mother during the first few days after delivery.
The fluid requirements per day increase from 60 ml/kg on day 1 to 150 ml/kg on day 5.
For the first few days after delivery the mother’s breasts do not produce a lot of milk. To prevent dehydration, the kidneys of the newborn infant, therefore, produce little urine during this period. As a result the infant does not need a lot of fluid in the first few days of life. However, the infant’s fluid needs gradually increase from day 1 to 5. By day 5 the kidneys are functioning well and a lot of urine is passed. Giving 150 ml/kg during the first 4 days to infants may result in overhydration.
Whenever possible, every effort should be made to feed a low-birth-weight infant with breast milk. Infection, especially in preterm infants, can be largely prevented by using breast milk.
If the mother’s breast milk is not available, then pasteurised donated breast milk or formula (powdered milk) should be used. Infants weighing 1500 g or more can be given a standard newborn formula such as Nan 1 or S26. However, infants weighing less than 1500 g should be given a special preterm formula such as Pre NAN or S26 LBW. Cows’ milk is not suitable for newborn infants.
If the correct volume of breast milk or formula is given, the infant will receive the correct amount of nutrients and energy. Diluted feeds are not used.
Healthy term infants of normal birth weight should be demand fed at the breast.
Most preterm infants born after 35 weeks are able to take all their feeds by mouth. If possible, they should be breastfed. A cup, rather than a bottle, should be used to give feeds if expressed breast milk or formula is used.
Preterm infants that are not able to suck should be fed via a nasogastric tube. They usually start to suck between 32 and 34 weeks.
If the infant is fed via a nasogastric tube, the mother must manually express her milk every 4 hours during the day. A breast pump, if available, can also be used. The milk can be safely stored for 48 hours in a household fridge. It should stand at room temperature for 15 minutes to warm before feeding.
Infants below 1500 g or sick infants may need intravenous fluids for the first few days before milk feeds are started.
Giving too big a feed may cause:
It is best to nurse infants on their backs as this lowers the risk of ‘cot deaths’. Raising the mattress below the head of the infant and giving smaller, more frequent feeds usually prevents vomiting. Any infant that continues to vomit or develops a distended abdomen should be referred as they may have an infection.
Infants who have a gestational age below 37 weeks are often deficient of both vitamins and iron and should receive the following:
Low-birth-weight infants born at term usually do not need any nutritional supplements.
Anaemia is defined as a haemoglobin concentration (Hb) or packed cell volume (PCV) which is below the normal range. The normal PCV at birth is 45–65% and the Hb 15–25 g/dl. After delivery the PCV and Hb fall slowly until about 8 weeks of age and then slowly increase again. The Hb should not fall below 10 g/dl and the PCV below 30%. If the Hb and PCV fall below these levels the infant has anaemia.
The commonest cause of anaemia in newborn infants is anaemia of prematurity. Less common causes are bleeding, infection and haemolytic disease of the newborn.
The PCV and Hb of the preterm infant are normal at birth, but fall faster and to lower levels than those in the term infant. Therefore, preterm infants after a few weeks of age may have a PCV below 30% and a Hb below 10 g/dl. This condition is called anaemia of prematurity as it is caused by an immature bone marrow which does not produce enough red blood cells.
There is no simple, cheap way of preventing anaemia of prematurity. Giving oral iron to preterm infants does not help prevent or treat anaemia of prematurity. These infants should be discussed with the referral hospital, as they may need a blood transfusion, especially if the PCV falls to below 25% and the Hb below 8 g/dl or they stop gaining weight. Most infants with anaemia of prematurity recover after a few weeks without any treatment.
Kangaroo mother care is a method of nursing infants skin-to-skin against the mother’s chest. The infant, who is kept naked except for a woollen cap, socks and nappy, is placed vertically between the mother’s bare breasts. The infant is then covered with a blanket, towel or the mother’s clothing. The mother can wear a belt, or tuck her vest, shirt, T-shirt or blouse into her trousers, to prevent the infant from falling. Special clothes are not needed although a KMC baby carrier can be used. Other members of the family should also be encouraged to give the infant KMC. This is particularly important for the father.
Many studies have shown that the infant’s temperature, respiration and heart rate remain very stable with KMC. Apnoea is reduced. Serious infection in hospital is uncommon as the infant is colonised with bacteria from the mother’s skin and breast milk rather than with dangerous nursery bacteria which are often resistant to many antibiotics. KMC is safe and should be widely practised.
KMC is one of the most important recent advances in infant care.
Good clinical notes, which form the patient record, should be accurate, brief and easy to read. In addition, they must be systematic. Therefore, they should be written in an orderly, logical way so that all staff members can understand them.
Whenever notes are written, it is important to give the date and the time that the record is made. It is then possible to know when the care was given.
Every time you write clinical notes you should sign your name. The rest of the health team then knows who wrote the notes.
When an infant is examined for the first time the clinical notes should include:
In order to remember these important steps in writing clinical notes, remember the word SOAP. The letters in SOAP stand for Story, Observations, Assessment, Plan.
Good notes should always start with the story (i.e. the history of the pregnancy, labour, delivery and events after delivery). A history should always be taken before examining an infant. Include any problems recorded during the pregnancy, labour and delivery, the Apgar score and any resuscitation needed, the antenatal assessment of the gestational age and any problems that occurred since delivery.
The observations include the findings of the physical examination and the results of any additional investigations done, e.g. temperature or blood glucose measurement.
An assessment of the gestational age should be made in all low-birth-weight infants.
Once you have recorded the results of the history, the physical examination and the investigations, you must make an assessment of the infant’s condition. For example, you should ask yourself:
The assessment must not be forgotten, as a carefully recorded history and examination are of little value if you are unable to assess what this information means. The management depends on an accurate assessment of the infant’s problems. If you cannot identify the problems, you will not be able to plan the correct treatment. Assessing an infant’s problems correctly takes a lot of practice. Once the assessment is made, it is very helpful to compile a problem list.
Each clinical problem that you identify from the story and observations must be listed separately. A typical problem list looks like this:
1. Unmarried teenage mother. 2. Preterm delivery. 3. Jaundice.
You now have a good idea of the clinical problems that require management.
Once the history, examination, investigations and assessment have been completed, the plan of management must be decided. The management consists of the nursing care, the observations needed, the medical treatment, and the management of the parents. It may be important to discuss the patient with the referral hospital and decide whether transfer is needed. When deciding on the plan of management, each item on the problem list must be considered.
14 January 2008. 10:30. S 18 year old primip. Booked. Spontaneous preterm labour. 35 weeks by dates and palpation. No signs of fetal distress. NVD at 06:15. Apgar scores 4 and 9. Intubation and ventilation needed for 3 minutes. Thereafter infant moved to nursery. O 1. Male infant. Weight 2000 g. 2. Assessed gestational age 36 weeks. 3. Active. 4. Skin temperature 36 °C. 5. RS Respiratory distress with recession and a respiratory rate of 65 breaths per minute. Infant needs 50% head box oxygen to remain pink. 6. CVS Heart rate 150/min. 7. GIT Abdomen normal. 8. CNS Appears normal. Fontanelle flat. 9. Blood glucose 3.0 mmol/l. PCV 60%. A 1. Preterm delivery. 2. Poor breathing at birth. 3. Respiratory distress. P 1. Incubator. 2. Neonatalyte IVI at 4 dpm. 3. Nasogastric tube. Nil per mouth. 4. Routine observations. 5. Head box oxygen. 6. Speak to parents. 7. Arrange transfer to level 2 hospital. Signed: Sr Mowtana
These brief notes give all the important information in a simple and systematic manner. Try to write your notes using the SOAP method.
It is very important to regularly assess the range of problems seen in a level 1 unit and evaluate the standard of care provided. This is the best method of ensuring that the highest standard of practice is maintained. Usually the low-birth-weight rate, stillbirth rate, early neonatal mortality (death) rate and perinatal mortality rate of each service are recorded.
Infants weighing less than 500 g (about 22 weeks) at birth are regarded as miscarriages and therefore are not included in these rates. Perinatal information (data) is usually divided into 500 g categories.
The low-birth-weight rate is the number of liveborn infants weighing less than 2500 g at birth per 1000 liveborn deliveries. The low-birth-weight rate is often expressed as a percentage, e.g. 15%.
In a wealthy community about 5% of infants are low-birth-weight. However, in poor communities up to 40% of all infants may have a low-birth-weight. The percentage of low-birth-weight infants in a community can be used to assess the socio-economic status of that community.
The stillbirth rate is the number of stillborn infants per 1000 total deliveries (i.e. liveborn and stillborn). The international definition of stillbirth, used for collecting information on perinatal mortality, is an infant that is born dead and weighs 500 g or more. In a developed country the stillbirth rate is about 5 per 1000. In a developing country, however, the stillbirth rate is usually more than 20 per 1000.
The legal definition of stillbirth in South Africa is an infant born dead after ‘6 months of intra-uterine life’ (i.e. 28 weeks since the start of the last period or 1000 g if the gestational age is not known). Therefore, only legally defined stillborn infants require a stillbirth certificate and must be buried or cremated. However, for the collection of information on perinatal mortality, the international definition of stillbirth is used.
An early neonatal death is defined as the death of a liveborn infant during the first 7 days after delivery. Therefore, the early neonatal mortality rate is the number of infants that die in the first week of life per 1000 liveborn deliveries. A liveborn infant is usually defined as an infant weighing more than 500 g that shows any sign of life at birth (i.e. breathes or moves). Liveborn infants below 500 g at birth almost always die within a few hours of birth, and are usually medically recorded as abortions. The early neonatal mortality rate in a developed country is usually about 5 per 1000. In a developing country the early neonatal mortality rate is usually more than 10 per 1000.
The perinatal mortality rate is the number of stillbirths plus the number of early neonatal deaths per 1000 total deliveries (i.e. both stillborn and liveborn). The perinatal mortality rate is about the same as the stillbirth rate plus the early neonatal mortality rate. Most developed countries have a perinatal mortality rate of about 10/1000 while most developing countries have a perinatal mortality rate of more than 30/1000.
Note that the low-birth-weight rate and early neonatal mortality rate are expressed per 1000 live births while the stillbirth rate and perinatal mortality rate are expressed per 1000 total births (i.e. live births plus stillbirths).
It is very important to know the low-birth-weight, stillbirth, neonatal and perinatal mortality rates in your service as these rates reflect the living conditions, standard of health, and quality of perinatal healthcare services in that region. It is far more important to know the mortality rate for the region than simply the rates for one clinic or hospital in the region.
Increased low-birth-weight and stillbirth rates suggest a low standard of living with many socio-economic problems, such as undernutrition, poor maternal education, hard physical activity, poor housing and low income in the community. An increased early neonatal mortality rate, especially if the rate of low-birth-weight infants is not high, usually indicates poor perinatal health services. Both a poor standard of living and poor health services will increase the perinatal mortality rate.
An increased low-birth-weight rate reflects poor socio-economic conditions, while a high early neonatal mortality rate indicates poor perinatal health services.
In a developing country, the main causes of perinatal death are:
Many of these causes are preventable with good perinatal care in level 1 hospitals and clinics. It is essential that you determine the common causes of perinatal death in your area. The avoidable causes of perinatal death should then be identified and steps taken to correct these causes.
This is a regular meeting of staff to discuss all stillbirths and early neonatal deaths at that clinic or hospital. Clinic deaths must include infants who died after transfer to a level 2 or 3 hospital as the cause of death may be due to the quality of management received at the clinic. Management problems with sick infants who survived can also be discussed.
Perinatal mortality meetings are held weekly or monthly. The aim of a perinatal mortality meeting is not only to establish the cause of death, but also to identify problems in the service and, thereby, to improve the management of mothers and infants. Care must be taken to review the management so that lessons can be learned, rather than to use the meeting to blame individuals for poor care. The disciplining of staff should be done privately and never at a perinatal mortality meeting.
Avoidable factors should be looked for whenever there is a stillbirth or neonatal death. The avoidable factors may be divided into problems with:
Some causes of death are avoidable (e.g. hypothermia) while others are not avoidable (e.g. abruptio placentae). By identifying avoidable factors, plans can be made to improve the perinatal care provided.
Every infant referred from a level 1 clinic or hospital to a level 2 or 3 hospital must be recorded and reviewed. The infant’s weight, age and reason for referral must be known as well as the outcome at the referral hospital. The adequacy of resuscitation and management before transfer is important. Comment on the management and condition of the infant on arrival at the referral hospital is very useful. With this information, problems with management and transport can be identified, protocols improved and plans made for appropriate training.
It is very helpful if staff from the referral hospital can be involved in perinatal mortality and morbidity meetings.
The Perinatal Problem Identification Programme (PPIP) is a national programme that collects data on perinatal deaths from most state hospitals where mothers deliver in South Africa. It tracks the common causes of stillbirth and early neonatal death and is very important in planned health services aimed at lowering the perinatal mortality rate.
A female infant weighs 2200 g at birth. The mother is unbooked and does not know the date of her last menstrual period. She smokes 20 cigarettes a day. The infant has loose, wrinkled, dry skin and scores at 40.5 weeks. When plotted on a weight-for-gestational-age chart, the infant falls below the 10th centile.
The loose, wrinkled, dry skin suggests wasting due to a poor supply of food to the fetus during the last weeks of pregnancy.
Because the infant weighed less than 2500 g and the patient did not know the duration of pregnancy.
The scored age of 40.5 weeks indicates that the infant was born at term.
This infant is underweight-for-gestational-age as the birth weight falls below the 10th centile.
Because it indicates that the infant is at high risk of poor breathing at birth, meconium aspiration, hypothermia and hypoglycaemia. The infant may also have organ damage due to the lack of oxygen before delivery (fetal hypoxia).
The mother’s heavy smoking.
A 5-day-old term infant is bathed in a cold ward. Afterwards the infant appears well but feels cold. A reading in the axilla with a digital thermometer gives a result of 34.5 ºC. The infant, who weighed 2400 g at birth and is clinically wasted, is rapidly warmed by placing it next to a wall heater.
Hypothermia, because the infant’s axillary temperature was below 36.5 ºC.
The infant is underweight-for-gestational-age and wasted. This may cause hypothermia as the infant has little body fat. In addition, the infant probably became cold after the bath because of the cold room.
Hypoglycaemia. A cold infant uses a lot of energy in an attempt to keep warm. This may use up the infant’s energy stores and result in hypoglycaemia.
This infant should be fed as soon as possible. This will help to prevent hypoglycaemia. Feeds will also provide the infant with energy to produce heat.
The infant should be dressed and given a woollen cap. If the room becomes cold at night, the infant can be kept warm with skin-to-skin care in the mother’s bed.
A preterm infant of 1700 g is born in a level 1 hospital. The infant is nursed in a closed incubator but no feed is given for 2 hours. At 1 hour after birth the Hemo-Glukotest reading with a Reflolux meter is normal but at 2 hours after birth the reading indicates hypoglycaemia.
A blood glucose concentration below 2.5 mmol/l.
The infant is preterm and therefore has little energy store. In addition, the infant has not been fed for 2 hours after birth. The infant had energy stores to last 1 but not 2 hours.
Breast or formula feeds should have been started within an hour of delivery.
No. Milk feeds contain more energy than 5% dextrose feeds.
No. Often hypoglycaemia is asymptomatic and can only be diagnosed with blood screening.
A 1900 g, healthy preterm infant is born by normal vertex delivery after a 34 week gestation.
Tube feeds should be started after delivery. There is no indication to give intravenous fluids. In a week or two, when the infant starts to suck, breast or cup feeds can be introduced.
Breast milk should be used if possible. If this is not available, then a standard infant formula (e.g. NAN 1) should be given.
60 ml/kg = 60 × 1.9 = 114 ml over 24 hours. Thereafter the volume will be increased daily until 150 ml/kg is reached on day 5.
4-hourly (i.e. 6 feeds a day). Therefore, the volume of each feed will be 114/6 = 19 ml.
A multivitamin liquid 0.6 ml daily should be started on day 5, while iron drops 0.3 ml should be started when the infant feeds well. Both should be continued for 6 months. The dose of iron drops should be increased to 0.6 ml per day on discharge.
It is decided to determine the perinatal healthcare status of a region. Therefore, all the birth weights, together with the number of live births and perinatal deaths, in the hospitals, clinics and home deliveries in that region are recorded for a year. Only infants with a birth weight of 500 g or more are included in the survey. Of the 2000 births, 50 infants were stillborn and 1950 were born alive. Of the live born infants, 25 infants died in the first week of life. One hundred and twenty liveborn infants weighed less than 2500 g at birth.
Because some of these infants may live if they are given emergency management and then transferred to a level 2 or 3 hospital. Therefore, all infants with a birth weight of 500 g or more must be included in a perinatal survey.
There were 50 stillbirths and 2000 total births. Therefore, the stillbirth rate was 50/2000 × 1000 = 25 per 1000.
It is typical of a developing country, which usually has a stillbirth rate above 20/1000. In contrast, a developed country usually has a stillbirth rate of about 5/1000.
Of the 1950 infants who were born alive, 25 died during the first week of life. Therefore, the early neonatal mortality rate was 25/1950 × 1000 = 12.8 per 1000.
Above 10/1000. Therefore, the rate of 12.8/1000 is what you would expect in a developing country.
There were 50 stillbirths and 25 early neonatal deaths with 2000 total deliveries. Therefore, the perinatal mortality rate was 50 + 25/2000 × 1000 = 37.5 per 1000.
Of the 1950 infants born alive during the year, 120 weighed less than 2500 g at delivery. Therefore, the low-birth-weight rate was 120/1950 × 1000 = 61.5 per 1000 or 6.15%.
No. Most developing countries have a low-birth-weight rate of more than 100/1000 or 10%.
It suggests that the living conditions of the mothers in the study region are satisfactory but the perinatal services are poor. Every effort must be made, therefore, to improve these services.