The Digestive System PDF

Summary

This document is a set of lecture notes on the digestive system. It covers the anatomy, physiology, and function of the system, including learning objectives, diagrams, and different phases.

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The Digestive System
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Nurfitri Bustamam, SSi, MKes, MPdKed.
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Nurfitri Bustamam
Learning Objectives 3

Describe the anatomy & basic function of
digestive system.
Describe the composition & functions of saliva,
& explain how saliva is regulated.
Describe the mechanism of chewing &
swallowing.
Identify structure of the wall of stomach that
enhance the digestive process.
Describe the composition of gastric juice.
Explain regulations of gastric secretion &
stomach motility
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Alimentary canal & Accessory digestive organ
 Gastrointestinal Activity 5

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Digesti
Proses pencernaan mekanik & kimia molekul besar mjd
molekul kecil sehingga dapat diserap sal. GI 6
Sekresi
Kelenjar yg terkait sal. GI, mensekresi air, elektrolit, or zat
yg penting lain utk pencernaan, misalnya enzim, empedu,
atau mucus.

Motilitas
Tone: a constant low level of contraction
Pacesetter cells:
in m. mucosae & m. externa
spontan & ritmis
Basic Electrical Rhythm (BER)/slow wave potential

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It is believed that slow waves originate in the interstitial cells of
Cajal, which are abundant in the myenteric plexus.
Slow wave: depolarization (Ca2+ inward) & repolarization (K+
outward)
Even without the occurrence of action potentials, the smooth
muscle is not completely relaxed but exhibits basal contractions,
or tonic contractions.
If slow wave threshold action potential phasic
contraction (Constanzo 5th ed.)
Peristalsis:
propels materials along the length of digestive tract. 8
Segmentation:
small intestine & large intestine
churn & fragment the chyme, mixing the content with
intestinal secretion
do not push materials along the tract in any direction

Absorpsi
penyerapan hasil pencernaan dari lumen saluran GI,
menembus lapisan epitel masuk ke dalam darah atau cairan
limfe

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Layers of digestive tract wall 9

Mucosa
Submucosa
Muscularis
externa
Serosa

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 Histology of The Alimentary Canal 10

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 Mukosa
Sel epitel tdd sel yg mensekresi mucus, sel kelenjar 11
endokrin, & sel kelenjar eksokrin yg menghasilkan
enzim, asam, air & ion ke dalam lumen GI. Di bawah
epitel tdpt lamina propria yg dilalui pembuluh
darah, saraf, & saluran limfe. Di bawah lamina
propria terdapat muskularis mukosa.

Submukosa
Jar. ikat yg dilalui pembuluh darah & terdapat jala
saraf (pleksus) submukosa/Meissner

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 Epithelial Renewal & Repair 12

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 Muskularis Eksterna 13
Otot sirkuler (di sebelah dalam & tebal), pleksus
meinterikus (Auerbach), otot longitudinal (di sebelah luar
& tipis)
Pl. submukosa & Pl.mienterikus (Pl. intramural) serta
neuron lain di saluran GI membentuk sistem saraf enterik.

Serosa
Selapis sel-sel mesotel yg mensekresikan cairan serous utk
membasahi & mencegah gesekan antara organ
pencernaan & organ dalam sekitarnya

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 Control of Digestive Function 14

Di dlm lumen GI diciptakan lingk. khusus agar
proses digesti & absorpsi optimal via pengendalian
sekresi kelenjar & kontraksi otot.
Pengendalian tsb bergantung pada volume &
komposisi kandungan lumen GI.
Rangsang: regangan dinding lumen, osmolaritas
kimus, keasaman kimus, hasil pencernaan KH,
lemak, & protein
Reseptor: mekanoreseptor, osmoreseptor,
kemoreseptor
Efektor: kel eksokrin, kel endokrin or otot dinding
GI
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Control of Digestive Function
15

(Sherwood , 2016)
 Nervous control 16

Extrinsic/autonomic Intrinsic

Sympathetic (decreases Submucous or Meissner’s
motor and secretory plexus (controls secretory
activity, contraction of function)
sphincters)

Myenteric or Auerbach’s
Parasympathetic plexus (controls motor
(stimulatory) activity)

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Pengaturan Saraf 17

Sistem saraf intrinsik dibentuk oleh pleksus
mienterikus dan submukosa sehingga refleks GI tdk
bergantung pd SSP.
Sistem saraf ekstrinsik: SSO (simpatis dan
parasimpatis) yg bersinaps dg neuron di pleksus.
Ada dua jalur refleks, yaitu refleks pendek &
panjang.
Tdk semua refleks pengendalian di mulai dari dlm
saluran GI, jika dimulai dari reseptor lain, misalnya
melihat makanan, pasti SSP terlibat dalam
responsnya.

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Pengaturan Saraf 18
Hormonal control
19

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 Oral / Buccal Cavity 20

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Mengunyah 21

Pemecahan partikel besar makanan mjd partikel kecil &
mencampurnya dg saliva sehingga terbentuk bolus.

Mengunyah melibatkan kerjasama otot pengunyah, lidah, dan pipi.

Mengunyah mrpkan gerakan ritmis yg dikendalikan oleh ss somatik yg
menuju otot2 pengunyah.

Disamping pengendalian volunter, gerakan mengunyah yg ritmis ini
dikendalikan secara refleks yg diaktifkan oleh tek. makanan terhadap
gusi, gigi, palatum durum, dan lidah.

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 Kelenjar Saliva 22

volume 1-1,5 L/hari,
pH 7,0
99,4% H2O:
- submandibular 70%
- parotis 25%
- sublingual 5%
0,6% tdd:
- enzim: lingual lipase
ptyalin -amylase
- glikoprotein (mucin) utk lubrikasi.

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23
Functions of saliva 24

Digestive functions:
Amylase breaks down starch, and lingual lipase breaks down
triglycerides (active in the stomach).
It dissolves food materials so it can be sensed by taste buds.

Lubrication:
Keeps mouth moist and thus facilitates movements of lips and
tongue during speech.
Moistens food and thus facilitates swallowing.

Protection:
Keeps mouth and teeth clean by dissolving and washing food
particles from between the teeth.
Has an anti-bacterial action.
Buffers acidic gastric secretions.
Fungsi Saliva 25
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Sjögren’s syndrome immune disorder in which many different
exocrine glands are rendered nonfunctional by the infiltration of white
blood cells and immune complexes. loss of salivary gland function
impaired sense of taste, difficulty chewing, and even ulcers (holes) in
the mucosa of the mouth
 27

(Constanzo 5th ed)
 Pengendalian Sekresi Saliva 28

Refleks tidak bersyarat:
dari lidah/mulut & esofagus
bawah/lambung/usus halus
sebelah atas

Refleks bersyarat: dari
daerah korteks serebri
(melihat, menghidu,
mendengar, memikirkan
makanan).
Ivan Pavlov

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(Constanzo 5th ed)
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Fase sekresi saliva
- sefalik
- bukal
- esofago/gastro/intestinal (rangsang iritasi
sekresi saliva yg berperan sbg pelarut &
buffer rangsang iritan tsb).
Perangsangan parasimpatis: saliva encer, kaya
enzim, banyak, & sedikit mengandung bahan
organik
Perangsangan simpatis: saliva kental (banyak
mucus), sedikit, dan banyak mengandung bahan
organik

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Esofagus

Esofagus (25 cm) tdd:
33
- 1/3 bag atas: otot rangka
- 1/3 bag tengah:
otot rangka & otot polos
- 1/3 bag bwh: otot polos
Esofagus mensekresi mucus sbg
pelumas sewaktu menelan &
proteksi dinding esofagus dari
asam & enzim jika tjd reflux.
 Esophagus 34

Function:
Swallowing or deglutition, which is the process of
moving food from the mouth through the esophagus
into the stomach
No digestion or absorption
Secretions: mucus

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Menelan 35

Pharynx & esofagus tdk ikut dlm proses
pencernaan, tetapi hanya mrpkan jalur masuknya
makanan ke lambung (6-10 detik)
Proses ini mrpkan refleks majemuk yg ditimbulkan
oleh perangsangan reseptor di dinding farings oleh
bolus. Impuls aferen disalurkan mll n.V, VII, XII,
dan X.

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 Swallowing 36

Swallowing can be initiated voluntarily but then it is
under reflex control.

Swallowing reflex
Receptors: touch receptors in pharynx.
Afferent: sensory impulses from receptors.
Centre: swallowing centre in brain stem.
Efferent: parasympathetic nerves to muscles of
pharynx and esophagus.

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 Fase Menelan 37

1. Fase Oral
volunter; bolus didorong ke orofarings oleh lidah (kontraksi m.
miohioid dan stiloglosus), merangsang reseptor taktil yg akan
memulai refleks menelan.
2. Fase Faringeal
uvula terangkat ke atas mencegah bolus masuk ke nasal.
epiglotis ke bawah, pita suara bergerak saling mendekati
mencegah bolus masuk ke trakea.
sfingter oesofagus atas (UOS) melemas, otot konstriktor
farings superior berkontraksi kuat mendorong bolus
3. Fase Esofageal
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Fase Buccal Fase Faringeal
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Protective reflexes during pharyngeal phase of
swallowing: 39

a) Elevation of the soft palate: closes posterior nasal
openings, thus preventing food reflux into the nasal
cavities.Elevation of the larynx against the epiglottis:
closes the superior laryngeal orifice (glottis), thus
preventing food entrance into the trachea.
b) Approximation of the vocal cords: This also closes
the glottis, but its role is much more important than that
of the epiglottis.
d) Temporary apnea: stoppage of breathing for few
seconds which also prevents food entrance into the
trachea.

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 Fase Esofageal 42

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Receptive Relaxation 43

Distention of lower esophagus by food
relaxation of LOS & relaxation of orad
stomach, called receptive relaxation.
Receptive relaxation reduces the pressure &
increases the volume of the orad stomach,
which, in its relaxed state, can accommodate
as much as 1.5 L of food.
Receptive relaxation is a vagovagal reflex
(Constanzo 5th ed.)
 44

Setelah bolus melewati UOS,
secara refleks UOS konstriksi.
Tepat di bwh UOS dimulai
gelombang peristaltik primer yg
dikendalikan oleh pusat menelan
di medulla oblongata.
Jika gelombang peristaltik
primer tidak cukup menyapu
bolus, tjd peregangan esofagus
yg merangsang gelombang
peristaltik sekunder yg
dikendalikan oleh pleksus.
Upside down or zero gravity?

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 the last portion of the esophagus lies below the
diaphragm and is subject to the same abdominal 45
pressures as the stomach.

During cycles of respiration or contraction of the
abdominal muscles, the pressures on both the
gastric contents and the terminal segment of the
esophagus are increased together prevents the
formation of a pressure gradient between the
stomach and esophagus that could force the
stomach’s contents into the esophagus.

Smoking, alcohol & caffeine gastroesophageal
reflux heartburn (because the pain appears to
be located in the area of the heart) & can also
cause coughing and irritation of the larynx
tek esofagus < atmosfir, tek lambung > esofagus
46
UOS cegah udara masuk ke esofagus + LOS cegah
reflux gastric content
LOS tetap tertutup meskipun terjadi peningkatan
tek abdomen, misal pada ekspirasi paksa, karena
letak LOS dibwh diafragma.
Pada kehamilan: janin + peningkatan tek
abdominal mendorong LOS ke rongga torax
LOS terbuka & isi lambung terdorong ke esofagus.
Esophagitis/Gastro Esophageal Reflux Disease
(GERD): HCl mengiritasi esofagus timbul spasme
otot & nyeri (heart burn). Pd akhir kehamilan
heart burn subside.
Achalasia 47
Food accumulation in esophagus & the organ
becomes massively dilated. It is due to increased
resting LOS tension, incomplete relaxing of LOS, &
weak esophageal peristalsis. Secondary peristaltic
wave repeatedly discomfort. Th/ cutting the
circular muscle layer at the base of esophagus
Aphagia: in ability to swallow
Dysphagia: difficulty in swallowing
Aerophagia burping (sendawa)
Gaster 48

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Motilitas Gaster 52
Lambung kosong mempunyai vol. 50 ml. Pada saat
menelan makanan, otot polos di fundus & korpus secara
refleks melemas sebelum makanan sampai di lambung shg
volumenya meningkat mjd 1,5 L tanpa peningkatan
tekanan yg nyata (receptive relaxation ini berlangsung
mll perangsangan n. vagus & dikendalikan oleh pusat
menelan).

Setelah lambung terisi, mulailah kontraksi lemah di
daerah fundus & korpus yg menekan isi lambung.
Kontraksi ini berlangsung beberapa waktu, tetapi tdk
mencampur isi lambung dg liur lambung. Oleh karena itu
amilase saliva masih dpt bekerja.
 Kontraksi lemah akan
menekan isi lambung shg 53
meningkatkan tek lambung.
Kontraksi akan menjalar ke
antrum dan mjd semakin kuat
(frekuensi 3X per menit).

Isi lambung yg didorong oleh
peristaltik antrum sebagian
dipantulkan kembali ke korpus
krn belum dpt melewati
pilorus yg hanya dpt dilalui
partikel berukuran < 1 mm)

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54
 55

Kontraksi antrum akan
diikuti kontraksi pilorus &
duodenum atas. Aliran
balik duodenum tdk akan
tjd krn kontraksi pilorus
berlangsung sedikit lbh
lama dari kontraksi
duodenum.
 56

Keaktifan di antrum akan:
1.Mencampur & mengaduk isi
lambung dg cepat dan
cermat dengan sekret
lambung
2.Memecah makanan menjadi
partikel yg lbh kecil
3.Mencurahkan isi lambung yg
sdh berbentuk kimus sedikit
demi sedikit ke duodenum
(pompa antrum/pilorus)
 57

Kontraksi peristaltik dikoordinasi oleh
gastric slow wave yg dimulai dr fundus
ke pilorus tiap 20 detik
Kecepatan Pengosongan
Lambung 58

1. Keadaan di lambung
a. jenis makanan; KH > protein > lipid lebih cepat
meninggalkan lambung.
b. volume isi lambung; makin teregang sekresi
gastrin motilitas
2. Keadaan di duonenum yg menghambat pengosongan
lambung
- volume/peregangan dinding
- hiperosmolaritas kimus
- keasaman (pH < 3,5)
- hasil pencernaan protein
- lemak
Keadaan di Duodenum 59
 60

(Sherwood , 2016)
 61

(Vander , 2019)
Keaktifan Lambung Kosong
(Fasting Motor Activity) 62
Bersifat siklik (tiap 90’- 120’), tdd
Fase I (periode tenang)
Fase II (periode kontraksi yg intermitten)
Fase III (hamburan kontraksi kuat yg singkat); keaktifan
ini dpt menyapu isi lambung proksimal hingga ke ileum
terminal kemudian mendorongnya hingga ke sekum.
Fase ini berperan membersihkan lambung & usus dari
sisa-sisa sampah dan sekret; mungkin juga penting dlm
mencegah pertumbuhan kuman yg berlebihan.

Keaktifan kuat lambung yg kosong dpt dirasakan. Oleh
karena disertai rasa lapar, disebut kontraksi lapar.
Migrating Myoelectric
Complexes 63

During fasting, there are periodic gastric
contractions, called the migrating
myoelectric complexes, which are mediated
by motilin.
These contractions occur at 90-minute
intervals and function to clear the stomach of
any residue remaining from the previous meal.

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 Kelenjar di Lambung 64

Pilorus
Sel mucus mukus
Sel G (pilorus/antrum) gastrin

Korpus & Fundus
Sel parietal/oksintik HCl &
faktor intrinsik
Chief cells/zimogen pepsinogen
Mucus Neck cells mukus

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65
Sekresi Liur Lambung 66

2500 ml/hari
pH 1
Na+ , K +, Mg + +, H +

Cl- , HPO4- - , SO4 - -
pepsinogen, mukus, faktor
intrinsik, air
faktor intrinsik utk absorpsi
vit. B12 di ileum. Defisiensi vit
B12 anemia pernisiosa
 Sekresi HCl 67

Sel Parietal

Setelah makan, sekresi HCl naik dan kadar bikarbonat darah yg
berasal dari lambung naik, pH darah naik (postprandial alkaline
tide)
68
 69

Enteric nerve endings release
gastrin releasing peptide
(GRP) or bombesin G cells
gastrin bloodstream
parietal cells (HCl) &
enterochromaffin-like
cells/ECL (histamin).
Histamin binds to H2
receptors at Parietal cells
HCl.
Parietal, Chief & ECL cells
can also stimulated by ACh
release from enteric nerve
ending.
 70
Cephalic phase predominantly activated by
vagal input GRP & ACh.
Meal in the stomach strecth receptor
vago-vagal (local reflexes) amplify
secretion of gastrin.
Meal buffer gastric acidity somatostatin
secretion inhibit G, ECL cells & Parietal
cells secretion. A key mechanism whereby
gastric secretion is terminated after meal
moves from stomach.
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Fungsi HCl 71
memecah partikel makanan &
membentuk larutan molekul yg
disebut kimus
denaturasi protein & inaktivasi
enzim dlm makanan
aktivasi pepsin
membunuh mikroorganisme
dalam makanan
merangsang sekresi empedu &
liur pankreas

Regulasi Sekresi HCl
72
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(Constanzo 5th ed)
 74

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 Abar Bikarbonat-Mukosa 76

Terbentuk dari mukus dan bikarbonat yg
disekresi oleh mukosa lambung dan hubungan
antar sel-sel mukosa yg bersifat tight junction.
Melindungi sel mukosa lambung dari
pengrusakan oleh HCl dan pepsin
Bahan yg merusak abar: etanol, cuka, aspirin,
obat antiinflamasi non steroid (NSAID), garam
empedu
Sekresi mukus dirangsang oleh iritasi mukosa,
nervus vagus, dan prostaglandin
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Tukak Lambung 78

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(Constanzo 5th ed)
 80

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 When Bugs Break The Barrier 81

1990s Helicobacter pylori – 80% peptic ulcer
Punya 4-6 flagella
Habitat di antrum acid-producing parietal
cells
Menghslkan urease yg menghidrolisis urea mjd
amonia (berfungsi sbg buffer)
H. pylori is an extremely common pathogen;
rates of infection are highest in the world’s
poorest countries, where sanitation facilities
and standards of personal hygiene are low. The
most likely route of spread from person to
person is fecal–oral.
Helicobacter pylori 82

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 83
Absorpsi di lambung tdk tjd sebab
1. Sel-sel epitel diselimuti oleh mucus alkalin shg
secara tdk lgs terpapar kimus
2. Sel-sel epitel tdk mempunyai mekanisme
transpor spt yg tdpt pd usus halus
3. Sel-sel epitel lambung relatif impermeabel thd
air
4. Partikel makanan di lambung masih berukuran
besar (pencernaan blm sempurna)
Note: alcohol dpt diabsorpsi di lambung

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Nurfitri Bustamam