SUGER: Week 3

Question 1

Is the kidney retro or intraperitoneal

Answer 1

It is retroperitoneal

Question 2

What vertebral levels does the kdiney extend from and to

Answer 2

From T12 to L3

Question 3

What is the apex of the renal pyramids known as

Answer 3

Renal papilla

Question 4

What is the role of the renal papilla

Answer 4

Connects to the minor calyx

Question 5

What is the role of the minor calyx

Answer 5

Collects urine from the renal pyramids

Question 6

Describe the path of urine through the kidney structures

Answer 6

Renal pyramids -> Minor calyx -> major calyx -> Renal pelvis -> ureter -> bladder

Question 7

What is the renal hilum

Answer 7

Gateway to the kidney

Question 8

Where are medullary rays located

Answer 8

In the cortex leading into the medulla

Question 9

What provides the striated appearance of the cortex

Answer 9

The medullary rays

Question 10

What are the ureters made of

Answer 10

Smooth Muscle

Question 11

How does the ureter move urine from the kidneys to the bladder

Answer 11

Via peristalsis

Question 12

What is the blood supply of the ureter

Answer 12

Upper - Renal arteries
Middle - Common iliac arteries + Gonadal arteries
Lower - Internal iliac arteries

Question 13

What is the nerve supply of the ureter

Answer 13

Testicular nerve plexus

Renal nerve plexus

Hypogastric nerve plexus

Question 14

Where is the urinary bladder located

Answer 14

In the pelvic cavity

Question 15

Where is the median umbilical ligament located

Answer 15

At the apex of the bladder extending to the umbilicus

Question 16

What is the name of the muscle that is contained within the bladder

Answer 16

Detrusor muscle

Question 17

How many sphincters does the male bladder have

Answer 17

Two: external and internal

Question 18

What is the blood supply of the bladder

Answer 18

Males: Inferior Vesical artery

Females: Vaginal Artery

Question 19

What are the inferior vesical artery and vaginal artery branches of

Answer 19

The internal iliac artery

Question 20

What is the sympathetic nerve supply of the bladder

Answer 20

Superior + Inferior hypogastric plexuses

Question 21

What does the trigone of the bladder consist of

Answer 21

2 Ureteric orifices
1 Internal urethral orifice

Mucosal flaps allow unidirectional movement of urine

Question 22

What are the different parts of the male prostate and what epithelium are they lined by

Answer 22

Preprostatic - Transitional
Prostatic - Transitional
Membranous - Pseudostratified columnar
Spongy urethra - Proximally pseudostratified and distally stratified squamous epithelium

Question 23

What is the difference in the glands present in the urethra in males and females

Answer 23

Males have bulbourethral glands

Females have bartholin glands

Question 24

What structure do the collecting ducts drain urine into

Answer 24

The renal pelvis

Question 25

What structure do the ureter move alongside to the bladder

Answer 25

Psoas major

Question 26

Are ureters retro or intraperitoneal

Answer 26

Retroperitoneal

Question 27

Describe the pathway of the ureters into the bladder

Answer 27

1. Move along psoas major muscles
2. Crosses pelvic brim + enters pelvic cavity
3. Runs down lateral pelvic walls
4. Enters ureteric orifices via one-way valves

Question 28

What consists of the renal corpuscle

Answer 28

Glomerulus
Endothelial cells
Bowman’s capsule

Question 29

What is the role of the renal corpuscle

Answer 29

Filters blood plasma

Question 30

What does the difference in diameter of the afferent and efferent arterioles achieve

Answer 30

Allows a huge + constant hydrostatic pressure along the glomerulus

Question 31

What are the glomerulus supported by (cell-wise)

Answer 31

Mesangial cells

Question 32

Three role of mesangial cells

Answer 32

1. Contract smooth muscle walls of afferent arterioles to reduce GFR
2. Structural support for capillaries
3. Phagocytosis of glomerular basement membrane breakdown products

Question 33

Where are principal cells found

Answer 33

DCT and collecting ducts

Question 34

Role of principal cells

Answer 34

Changes balance of Na+ and K+ in filtrate

Question 35

What mediates the action of the principal cells

Answer 35

Aldosterone

Question 36

What does an increase in aldosterone cause in the principal cells

Answer 36

Causes an increased Na+ channel expression on apical membrane

Causes increased Na+/K+ ATPase on basolateral (3Na out and 2K in)

Question 37

Apart from the kidneys, where else does aldosterone have an effect at

Answer 37

At the salivary glands + Gut (absorption of Na+ and secretion of K+)

Question 38

Describe the structure of the male spermatic duct from the testicles to the epididymis

Answer 38

1. Convoluted seminiferous tubules
2. Straight seminiferous tubules
3. Rete Testis
4. Efferent ductules
5. Epididymis

Question 39

Where are leydig cells found

Answer 39

Between the seminiferous tubules

Question 40

Role of leydig cells

Answer 40

Produce testosterone

Question 41

Where does meiosis in males take place

Answer 41

Seminiferous tubules

Question 42

What are the seminiferous tubules lined by

Answer 42

Stratified epithelium, sertolli cells and germ lines - Germinal epithelium

Question 43

What is the chromatin in germinal cells called

Answer 43

Spermatogonia

Question 44

What do spermatogonia develop into before entering the testis-blood barrier

Answer 44

Spermatocytes

Question 45

Role of sertolli cells

Answer 45

Nurse cells that develop nurturing developing sperm

Question 46

How long does sperm production take place

Answer 46

64 Days

NOTE: A wave of maturation moves down the tubules until the sperm reaches the blood-testis barrier

Question 47

What is the role of the renin-angiotensin system

Answer 47

Maintain + regulate blood pressure

Question 48

Describe the renin-angiotensin system

Answer 48

1. Renin is produced by juxtaglomerular cells as PRORENIN
2. Renin is released by juxtaglomerular cells when there is a DECREASED arterial pressure.
3. Intrinsic reactions cleave prorenin to renin
4. Renin acts on angiotensiongen -> angiotensin I (loses 2 AA)
5. Angiotensin -> angiotensin II by ACE enzymes in the lung endothelium by losing 2AA

Question 49

Where is angiotensin I converted to angiotensin II

Answer 49

Mostly the lungs but also kidneys too

Question 50

Angiotensin I vs Angiotensin II

Answer 50

Angiotensin I is a WEAK vasoconstrictor

Angiotensin II is a STRONG vasoconstrictor

Question 51

How long does angiotensin II last in the blood vessels

Answer 51

apprx 30 mins because it is de-activated very quickly by angiotensinase

Question 52

How does angiotensin II affect the blood pressure

Answer 52

Vasoconstriction

Decreased excretion of Na and H20 by kidneys

Question 53

What is the result of a decreased excretion of Na by the kidneys

Answer 53

Increased ECF volume

Question 54

Angiotensin II afefct in veins vs arterioles

Answer 54

Veins do not constrict as much as arterioles - increases TOTAL PERIPHERAL RESISTANCE

Question 55

What two ways does angiotensin act in the body

Answer 55

1. Acts directly on kidneys to cause salt and water retention
2. Causes adrenal glands to secrete aldosterone which increases Na and H20 reabsorption by kidney tubules

Question 56

Explain the direct-acting nature of angiotensin II

Answer 56

Constricts arterioles to reduce pressure in peritubular capillaries + increase pressure gradient from tubules to capillaries (more-rebasorption)

Question 57

How does the RAAS system function when salt intake varies

Answer 57

1. Large intake of salt increases ECF volume + arterial pressure
2. Increased arterial pressure causes increased blood flow through the kidneys
3. Increased blood flow lowers renin secretion so less Na+ is retained.

Question 58

What are the two components of the aicd-base buffer system at the kidneys

Answer 58

• A weak acid (H2CO3)
• bicarbonate salt (NaHCO3)

Check book

Question 59

Is the phosphate buffer system important in ICF or ECF

Answer 59

ICF regulation

Question 60

What are the main components of the phosphate buffer system

Answer 60

HPO42-

H2PO4

Question 61

How will adding a strong acid like HCL affect the phosphate buffer system

Answer 61

HCL will react with NaHPO4 to give NaCl + NaH2PO4

So HCL (strong acid) is replaced by a slightly stronger weak acid, minimising change in pH

Question 62

How does adding a strong base like NaOH affect the phosphate buffer system

Answer 62

NaOH will react with NaH2PO4 -> H20 + Na2HPO4

A strong base is replaced by a slightly stronger weak base minimising change in Ph

Question 63

How does the phosphate buffer system affect bicarbonate levels in the blood

Answer 63

Production of new HCO3- ions which increase net amount of plasma HCO3-

Question 64

When does the phosphate buffer system take place

Answer 64

When all the HCO3- have combined with H+ and we have an excess of H+ still left

Question 65

Describe the phosphate buffer system

Answer 65

Check book

Question 66

Define a base

Answer 66

Proton acceptor

Question 67

Define an acid

Answer 67

Proton donator

Question 68

Define Base Excess

Answer 68

Quantity of acid required to return plasma pH to normal

Question 69

Define standard base excess

Answer 69

Quantity of acid that requires to return ECF to normal pH

Question 70

Define acidemia

Answer 70

Low pH

Question 71

Define alkalemia

Answer 71

High pH

Question 72

Formula for pH

Answer 72

-log10(H+)

Question 73

What is the anion gap

Answer 73

The difference between measured cation + measured anions in the plasma or urine

Question 74

Why do we calculate an anion gap

Answer 74

To identify the cause of metabolic acidosis

Question 75

Formula for the anion gap

Answer 75

([Na+] + [K+}) - ([Cl-]+[HCO3-])

Question 76

What is the normal range for the anion gap

Answer 76

10 - 16

Question 77

What does a wide anion gap suggest

Answer 77

Renal Failure

Question 78

What does a narrow anion gap suggest

Answer 78

Renal tubular acidosis

Question 79

At what part of the nephron does the phosphate buffer system take place at

Answer 79

PCT

Question 80

How does the phosphate buffer system affect plasma HCO3 levels

Answer 80

Increases it

Question 81

Other than the phosphate buffer system, how else can we produce new bicarbonate ions

Answer 81

The ammonia buffer system

Question 82

Describe the ammonia buffer system

Answer 82

Check book

Question 83

What is glutamine broken down into

Answer 83

NH3 + alpha ketogluturate

NH3 gains a proton to form NH4+

Question 84

What happens to the alpha keto-gluturate

Answer 84

Give two HCO3- ions

Question 85

Where is some of the NH4+ absorbed

Answer 85

Collecting Ducts

Question 86

How does the mechanism of acid secretion (bicarbonate re-absorption) change along the nephron

Answer 86

At PCT and thick ascending limb of loop of henle - Secondary Active Transport

At DCT and collecting ducts - Primary Active Transport

Question 87

What happens to the proportion of NH4+ during metabolic acidosis

Answer 87

Increases it

Question 88

How is repiratory acidosis caused

Answer 88

Hypoventilation or COPD

Question 89

How is respiratory alkalosis caused

Answer 89

Hypoxia and hyperventilation

Question 90

How is metabolic acidosis caused

Answer 90

Renal Failure or excess H+ secretion

Question 91

How is metabolic alkalosis caused

Answer 91

Vomiting and volume depletion

Question 92

How does metabolic + respiratory acidosis affect the HCO3-/H+ ratio

Answer 92

Decreases it

Question 93

Why does H+ conc. increase in respiratory acidosis

Answer 93

Increased pCO2 levels in ECF - H+ in excess

Question 94

Why does H+ conc. increase in metabolic acidosis

Answer 94

Decreased HCO3- levels in ECF - H+ in excess

Question 95

What happens to NH4+ levels in repiratory and metabolic acidosis

Answer 95

Increases to increase bicarbonate levels again

Question 96

How long does correctin of acidosis take

Answer 96

Days

Question 97

What happens to the HCO3-/H+ ration during alkalosis

Answer 97

It increases

Question 98

How is HCO3- production affected as less H+ is available for the phosphate and ammonia buffer systems

Answer 98

Decreases

Question 99

How is alkalosis corrected at the kidneys

Answer 99

Decreased respiration (Increase CO2 levels)
Increased renal HCO3- excretion: Increased ECF conc. causes increased filtration of HCO3- into the tubules and can't be re-absorbed as H+ ions are not present in the cell

Question 100

How is acidosis corrected at the kidneys

Answer 100

Increased respiration (decrease CO2 levels)
Decreased renal HCO3- secretion

Question 101

What are three major roles of the kidneys

Answer 101

Angiotensin II
Erythropoietin
Activation of vitamin D

Question 102

Where is erythropoietin produced

Answer 102

Renal cortex interstitium

Question 103

What is the consequence of incontinence to an individual

Answer 103

1. Societal expectation
2. Taboo subject
3. Significant cause of misery
4. Less quality of life
5. Reduced life-expectancy

Question 104

What are the components of the lower urinary tract

Answer 104

1. Bladder
2. Bladder Neck
3. Prostate Gland
4. Urethra + Urethral sphincter

Question 105

What are three functions of the normal lower urinary tract

Answer 105

1. Prevent leakage of stored urine
2. Low pressure of stored urine
3. Allow rapid voiding and at an appropriate time + Place

Question 106

Define micturition

Answer 106

This is the process by which the urinary bladder empties when it’s filled

Question 107

How can I identify the bladder trigone

Answer 107

The trigone is made of smooth mucosa whilst the rest of the bladder has mucosa arranged as rugae

Question 108

How do the ureter pass into the bladder

Answer 108

Obliquely

Question 109

Why do the ureter pass into the bladder obliquely

Answer 109

To allow uni-directional movement of urine

Question 110

What does the urogenital diaphragm consist of

Answer 110

External sphincter of the bladder

Question 111

What is the external sphincter innervated by

Answer 111

Peudendal nerve (supplies motor)

Question 112

Can the micturition process by inhibited

Answer 112

Yes, it can be voluntarily inhibited util it is appropriate to begin voiding

Question 113

Why does pressure in the bladder stay low during storage even though it is filling with urine

Answer 113

Because the bladder has a compliant nature and an increase in bladder tension causes an increase in its radius.

Question 114

Describe the micturition reflex

Answer 114

1. Stretch receptors in the posterior urethra are stimulated when it begins to fill with urine due to the higher pressure in the urine
2. Sensory impulses move down pelvic nerves to S2 + S3 spinal cord segments
3. Parasympathetic fibres carry impulses back to the bladder via pelvic nerves
4. This causes slight contraction of the detrusor muscles
5. If the bladder content isn’t voided by then OR the bladder is only partially filled, then the micturition contractions relax again due to detrusor muscles
6. As the bladder fills further, the strength of detrusor muscle contraction eventually increases, pulling the internal sphincter of the bladder open.
7. More APs are fired by pelvic nerves as stretch receptors become more stimulated
8. Pelvic nerve is inhibited if micturition reflex fails to release any urine for a few minutes

Question 115

Describe the voiding phase of micturition

Answer 115

1. Afferent signals are sent to the periaqueductal grey
2. Project to the pontine micturition centre + cerebrum
3. Increased afferent activity causes INCREASED urge to void
4. Voluntary signals to start voiding causes maximal firing from the centre exciting SACRAL PRE-GANGLIONIC NEURONS
5. Neurons cause the bladder wall to contract, increasing intravesical pressure
6. Onuf’s nucleus is inhibited which causes relaxation of EXTERNAL URETHRAL SPHINCTER
7. Even when the sphincter is relaxed, the micturition reflex needs to generate a big enough pressure to expel the urine.

Question 116

Where is the micturition reflex centre located

Answer 116

Pons.

Question 117

What type of muscle does the external sphincter consist of

Answer 117

Slow twitch - type 1 muscle fibres

Question 118

What is the external sphincter innervated by

Answer 118

Peudendal nerve (S2-4) which are inihibited to cause the sphincter to relax

Question 119

What is the internal urethral phincter innervated by

Answer 119

Sympathetic - Hypogastric plexus

Question 120

What is the bladder innervated by

Answer 120

Pelvic Splanchnic nerves (parasympathetic)

Question 121

Where is ANP produced

Answer 121

By the atria

Question 122

What does ANP do

Answer 122

Dilates the afferent arterioles and constricts efferent arterioles

This increases GFR which increases blood flow through the vasa recta.

Vasa recta washes out Na and Cl in medullary interstitium which reduces Na re-absorption into the nephrons

Inhibits renin secretion

Question 123

How does Na conc. in blood affect ANP levels

Answer 123

Increases it

Question 124

Following micturition, how is the remaining urine in the urethra expelled

Answer 124

Contraction of the bulbospongiosus muscle

Question 125

How do we expel small quantities of urine even though the micturition reflex is not strong enough to do so

Answer 125

Contraction of abdominal walls which increase pressure applied to the urinary bladder wall.

Question 126

What do primordial germ cells do during embryological development in order to initiate spermatogenesis

Answer 126

They migrate into the testis and form SPERMATOGONIA

Question 127

When do spermatogonia begin to mature

Answer 127

Only once puberty starts

Question 128

Where does sperm maturation take place

Answer 128

In the seminiferous tubules

Question 129

What hormone causes sperm maturation

Answer 129

Gonadotropic hormones

Question 130

At what age does spermatogenesis typically occur at

Answer 130

13

Question 131

Outline the process of spermatogenesis

Answer 131

Check book

Question 132

How is the XY chromosome divided in the sperm

Answer 132

They are separated during meiosis I and placed into separate gametes

Gamete receiving X will form a female

Gamete receiving Y will form a male

Question 133

Where is the nucleus of a sperm found

Answer 133

1. Sperm head

Question 134

Where is the sperm acrosome located

Answer 134

Anterior 2/3 of the head

Question 135

What organelle forms the acrosome

Answer 135

Golgi apparatus

Question 136

What two enzymes are found in the acrosome

Answer 136

1. Hyaluronidase (digest proteoglycans)

2. Proteolytic enzymes (digest proteins)

Question 137

Why do we need hyaluronidase and proteolytic enzymes

Answer 137

To allow the sperm to reach the ovum

Question 138

What is found in the tail of the sperm

Answer 138

Axoneme

Question 139

What is the axoneme

Answer 139

Cilia-like structure (central skeleton of II microtubules)

Question 140

What is found in the body of the sperm

Answer 140

Mitochondria

Question 141

What causes the movement of the sperm tail

Answer 141

1. Due to axoneme tubule movement

Question 142

What do leydig cells secrete

Answer 142

Testosterone

Question 143

Where is LH secreted

Answer 143

Anterior pituitary gland

Question 144

What cell does LH activate

Answer 144

Leydig cells

Question 145

What does FSH activate

Answer 145

Sertoli cells

Question 146

What hormone stimulates division of the spermatogonia

Answer 146

Growth Hormone

Question 147

Where is sperm mainly stored

Answer 147

Epididymis

Question 148

How long can sperm be stored for

Answer 148

About a month

Question 149

In what state are sperm stored

Answer 149

Deeply surpassed + Inactivated

Question 150

What do sertoli cells do during ejaculation

Answer 150

They secrete hormones + nutrients which makes sperm motile

Question 151

What pH does ejaculate have to be for optimal activity

Answer 151

Slightly alkaline

Question 152

How does an increase in temperature affect sperm lifespan and why is this the case

Answer 152

Decreases as metabolic activity increases

Question 153

Where do the seminal vesicles empty into

Answer 153

Ejaculatory duct

Question 154

What is the main nutrient by sperm

Answer 154

Fructose

Question 155

Where a prostaglandins produced

Answer 155

Seminal vesicles

Question 156

What is the role of prostaglandins

Answer 156

Aid fertilisation by causing reverse peristalsis in fallopian tubes to assist movement of sperm to ovum

Question 157

What do prostate glands secrete

Answer 157

Calcium, citrate,phosphate ions, profibrinolysin

Question 158

What is the aim of prostatic secretions

Answer 158

Alkaline property which helps neutralise acidic metabolites in seminal fluids released from sperm + acidic conditions of vaginal secretions

Question 159

What epithelium lines the bulbourethral glands

Answer 159

Pseudo stratified columnar epithelium

Question 160

What is the fluid composition of semen

Answer 160

1. 60 % seminal fluid
2. 30% prostatic fluid
3. 10% sperm + bulbourethral fluid

Question 161

What does the sperm have to do in order to get through the cervix

Answer 161

Break down cervical mucous

Question 162

What are type A spermatogonia

Answer 162

Remain outside the blood-testis barrier + produce spermatogonia until they die

Question 163

What are type B spermatogonia

Answer 163

These mature into spermatocytes

Question 164

Why is some testosterone produced during fetal life

Answer 164

To allow descent of the testes

Question 165

How does the SRY gene affect the genital ridge

Answer 165

Causes genital ridge to develop into leydig cells

Question 166

In what part of the body is GnRH released

Answer 166

Hypothalamus

Question 167

What does GnRH cause in the pituitary glands

Answer 167

Secretion of LH and FSH

Question 168

What is the role of FSH in spermatogenesis

Answer 168

The FSH binds to receptors on sertoli cells in the SEMINIFEROUS TUBULES

Causes sertoli cells to grow and produce substances the stimulate maturation (with testosterone)

Question 169

How does testosterone act

Answer 169

Locally by diffusing from interstitial into seminiferous tubules

Question 170

How is FSH levels affected if spermatogenesis FAILS

Answer 170

It will increase

Question 171

What happens if FSH levels are too high

Answer 171

Inhibin is secreted by sertoli cells to stop it

Question 172

What is LH inhibited by

Answer 172

Testosterone

Question 173

How does testosterone inhibit LH

Answer 173

1. Decreased secretion of GnRH

2. Acts of anterior pituitary gland

Question 174

Why is meiosis important

Answer 174

1. Prevents polyploidy
2. Increased variation
3. Genetic diversity
4. Chromosomal combinations

Question 175

When does meiosis I start in females

Answer 175

Before 12 weeks in fetus

Question 176

When is meiosis stopped at before puberty begins

Answer 176

Prophase I

Question 177

What happens at puberty to cause meiosis to continue

Answer 177

Increased conc. of LH

Question 178

At what stage is meiosis halted until fertilisation

Answer 178

Metaphase II

Question 179

How many chromosomes are present in polar bodies

Answer 179

23 chromosomes

Question 180

What is the difference between male and female gonads before 6 weeks

Answer 180

None

Question 181

When does sex determination occur embryologically

Answer 181

After 6 weeks

Question 182

What structures form by the paramesonephric duct

Answer 182

1. Fallopian tubes
2. Uterus
3. Upper 2/3 of vagina

Question 183

How many spermatozoa are produced by one spermatocyte

Answer 183

4

Question 184

How many ovum are formed by one egg

Answer 184

1

Question 185

What is the difference in maturation location of the sperm and ovaries

Answer 185

Eggs have one stage in the ovaries and another in the fallopian tubes

Both maturation stages take place in the testis

Question 186

What factors can affect puberty

Answer 186

1. Nutrition
2. Genetics
3. Excersise
4. Leptin
5. Insulin

Question 187

When does puberty take place in males

Answer 187

9-14 (air 12)

Question 188

What are the signs of male puberty

Answer 188

Pubic hair, axillary and facial hair

1st - Testicals enlarged

Spermatogenesis

Odour, mood swings and acne

Question 189

When does puberty take place in females

Answer 189

8-14 (air 11)

Question 190

What are the signs of female puberty

Answer 190

1st = breast development + Menarche

Growth spurt

Pubic and axillary hair

Question 191

When does menarche take place

Answer 191

2.5 years after puberty

Question 192

What structure does the sperm pass through to get to the oocyte

Answer 192

Corona Radiata

Question 193

What structure is the zona pellucid located next to

Answer 193

Corona Radiata

Question 194

What do sperm undergo when they enter the reproductive tract

Answer 194

Capacitation

Question 195

What occurs during capacitation

Answer 195

Destabilisation of sperm acrosome to allow penetration of the egg

Chemical changes that increases sperm motility

Question 196

What happens to the glycoproteins and cholesterol in the plasma membrane of sperm during capacitation

Answer 196

They are more permeable to calcium ions

Question 197

What hormone controls capacitation

Answer 197

FPP

Question 198

Where is FPP produced

Answer 198

Prostate gland

Question 199

How does FPP function

Answer 199

High conc. in male reproductive system keeps sperm inactive

Dilutes in female reproductive tract

Question 200

What happens at the zona pellucida

Answer 200

Sperm binds to corona radiata + enters zona

Binds to ZP3 glycoprotein in zone which bursts the acrosome, releasing enzymes needed to break down zona pellucid

Question 201

What follows penetration of the egg

Answer 201

Cortical Reactions

Question 202

Describe the cortical reactions that take place

Answer 202

1. Granules in the secondary oocyte fuse with the egg cell membrane
2. Granules are released by endocytosis
3. Inactivates sperm binding receptors hardening the zona pellucid
4. Prevents additional sperm from binding to the zona

Question 203

When does meiosis II of the egg start again

Answer 203

Following fertilisation

Question 204

What are pronuclei

Answer 204

These are when there are two nuclei of genetic information which are still surrounded by a membrane and haven’t fused yet