ËÅÊÖÈß ¹ 20. Veins
Veins are low-pressure vessels that have larger lumina and thinner walls than arteries. In general, veins have more collagenous connec ti-ve tissue and less muscle and elastic tissue than their arterial coun ter-parts. Although the walls of veins usually exhibit the three layers, they are much less distinct than those of the arter ies. Unlike arteries, veins contain one-way valves composed of exten sions of the intima that prevent reflux of blood away from the heart. Veins can be divided into small veins or venules, medium veins, and large veins.
Venules are the smallest veins, ranging in diameter from approxi mately 15-20 mm (post-capillary venules) up to 1-2 mm (small veins). The walls of the smaller of these are structurally and func tio-nally like those of the capillaries; they consist of an endothelium surrounded by delicate collagen fibers and some pericytes. In those vessels of increased diameter, circularly arranged smooth muscle cells occur surrounding the intima layer, but unlike in the small arteries, these cells are loosely woven and widely spaced. Venules are important in inflammation because their endothelial cells are sensitive to his-tamine released by local mast cells. This causes endothelial cells to contract and separate from each other, exposing a naked basement membrane. Neutrophils stick to the exposed collagen and extravasate (i. e., move out into the connective tissue). Histamine also causes local arterioles to relax, affect ing a rise in venous pressure and increased leaking of fluid. This produces the classic signs of inflammation: redness, heat, and swelling.
Medium veins in the range of 1-9 mm in diameter have a well - developed intima, a media consisting of connective tissue and loosely organized smooth muscle, and an adventitia (usually the thickest layer) composed of collagen bundles, elastic fibers, and smooth muscle cells oriented along the longitudinal axis of the vessel. Venous valves are sheet-like outfoldings of endothelium and underlying connective tissue that form flaps to permit unidi rectional flow of blood.
Large veins, such as the external iliac, hepatic portal, and vena ca-vae, are the major conduits of return toward the heart. The intima is similar to that of medium veins. Although a network of elastic fibers may occur at the boundary between the intima andmedia, a typical internal elastic membrane as seen in arteries is not present. A tunica media may or may not be present. If pre sent, smooth muscle cells are most often circularly arranged. The adventitia is the thickest layer of the wall and consists of elastic fibers and longitudinal bundles of collagen. In the vena cava, this layer also contains well-developed bundles of longitudinally oriented smooth muscle.
New words
vein - âåíà
low-pressure - íèçêîå äàâëåíèå
to have - èìåòü
collagenous - êîëëàãåíîâûé
elastic - óïðóãèé
although - õîòÿ
walls - ñòåíêû
coun terparts - êîïèè
unlike - â îòëè÷èå îò
exten sions - ðàñøèðåíèÿ
intima - èíòèìà
to prevent - ïðåäîòâðàòèòü
reflux - ðåôëþêñ
sheet-like - ïîäîáíûé ëèñòó
inflammation - âîñïëàìåíåíèå
because - ïîòîìó ÷òî
longitudinal - ïðîäîëüíûé
flaps - îòêèäíûå ñòâîðêè
external - âíåøíèé
iliac - ïîäâçäîøíûé
hepatic - ïå÷åíî÷íèê
Çàïîìíèòå ñëåäóþùèå çàñòûâøèå ñëîâîñî÷åòàíèÿ:
To have a good time From _ morning till night All _ day long
A lot of
Ïåðåä íàçâàíèÿìè óíèâåðñèòåòîâ àðòèêëü íå óïîòðåáëÿåòñÿ.
E. g. I shall study at _ St. Petersburg University.
My grandfather graduated from _ Oxford University
Âñòàâüòå àðòèêëü, ãäå íåîáõîäèìî.
1. Did you have... good time in the country?
2. Oh yes... weather was fine.
3. We were out of... doors from... morning till... night.
4. We played... football,... volley-ball and... other games.
5. We ñàøå... home late at... night and went to... bed at once.
6. Look at... clock! It is... quarter past ten. Go to... bed at once.
7.. sun rises in.east and sets in. west.
8. We spent last summer in. Ukraine.
9. We often went to. wood and gathered lot of... mushrooms.
10. My friend likes to play... chess. He is ready to play... chess all... day long.
11. Willi comes from... very old country on... Nile. It is called... Ethiopia.
12... Ethiopia is... beautiful mountainous country.
13. Nick is... young man. He wants to become... engineer.
14. Very often in... evening his new friends and he walk about... city talking about their native countries.
15. Marina lives in. Ukraine.
16. She lives in... small village near... Kiev.
17. She is... librarian. In summer she has... lot of work work.
18. I want to enter. Moscow University.
19. My Friend lives in... America
20. He studies Indies... history at... Harvard University.
Answer the questions.
1. What are veins?
2. In general do veins have more collagenous connec tive tissue?
3. Do veins have less muscle and elastic tissue than their arterial coun terparts?
4. What valves do veins contain?
5. How veins can be divided?
6. How much the venules are long?
7. Where are venules important?
8. Where do neutrophils stick to?
9. What do contain medium veins?
10. What are the major conduits of return toward the heart?
Make the sentences of your own using the new words (10 sentences).
Find the definite and indefinite articles in the text.
Àâòîð: Åëåíà Áåëèêîâà
<< Íàçàä: Capillaries
>> Âïåðåä: Heart
Ðåêîìåíäóåì èíòåðåñíûå ñòàòüè ðàçäåëà Êîíñïåêòû ëåêöèé, øïàðãàëêè:
▪ Ìåæäóíàðîäíûå ýêîíîìè÷åñêèå îòíîøåíèÿ. Øïàðãàëêà
▪ Îòå÷åñòâåííàÿ èñòîðèÿ. Êîíñïåêò ëåêöèé
▪ Ôèëîñîôèÿ. Êîíñïåêò ëåêöèé
Ñìîòðèòå äðóãèå ñòàòüè ðàçäåëà Êîíñïåêòû ëåêöèé, øïàðãàëêè.
×èòàéòå è ïèøèòå ïîëåçíûå êîììåíòàðèè ê ýòîé ñòàòüå.
<< Íàçàä
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Ñóòü ðàáîòû ñîñòîÿëà â ñëåäóþùåì. Êàê èçâåñòíî, êðîìå êëåòîê â ëþáûõ îðãàíàõ è òêàíÿõ åñòü åùå ìåæêëåòî÷íûé ìàòðèêñ, ñîñòîÿùèé èç áåëêîâ, ãëèêîïðîòåèíîâ, ëèïèäîâ è ò. ä. Ìàòðèêñ ïîìîãàåò êëåòî÷íîé ìàññå äåðæàòü ôîðìó, ôîðìèðóÿ ÷òî-òî âðîäå êàðêàñà, çà êîòîðûé êëåòêè ìîãóò äåðæàòüñÿ. Èõ ìîæíî óäàëèòü ñ ïîìîùüþ ñïåöèàëüíûõ äåòåðãåíòîâ, ïðè÷åì ñàì êàðêàñ îñòàíåòñÿ íåòðîíóòûì. È âîò, ïðîïóñêàÿ äåòåðãåíò ÷åðåç ïåðåäíþþ êîíå÷íîñòü, âçÿòóþ ó ìåðòâîé êðûñû, Õàðàëüä Îòò (Harald C. Ott) è åãî êîëëåãè ñ÷èñòèëè ñ íåå âñå êëåòêè, íî òàê, ÷òî ìàòðèêñ êðîâåíîñíûõ ñîñóäîâ è ìûøö îñòàëñÿ íà ìåñòå. Ïðîöåäóðà çàíÿëà 52 ÷àñà, à ÷òî ïðîèñõîäèëî ïðè ýòîì ñ ëàïêîé, ìîæíî óâèäåòü çäåñü.  ðåçóëüòàòå ïîëó÷èëîñü ÷òî-òî âðîäå îáúåìíîãî êîíòóðà êîíå÷íîñòè, êîòîðûé òåïåðü ïðåäñòîÿëî íàïîëíèòü íîâûì êëåòî÷íûì ñîäåðæèìûì.
Ëàïêó ïîìåùàëè â áèîðåàêòîð, â êîòîðîì åé ïðåäñòîÿëî îáðàñòè êëåòêàìè. Ñíà÷àëà èõ ðàñòèëè îòäåëüíî, à ïîòîì ââîäèëè â "ïóñòóþ" êîíå÷íîñòü: êëåòêè, êîòîðûå äîëæíû áûëè âîññòàíîâèòü ñîñóäû, ïîìåùàëè â ìàòðèêñ, îñòàâøèéñÿ îò âåí è àðòåðèé, òå, êîòîðûå äîëæíû áûëè âîññòàíîâèòü ìûøöû, ââîäèëè â ìûøå÷íûå îáîëî÷êè. ×åðåç ïÿòü äíåé êîíå÷íîñòü îáðàáàòûâàëè ñëàáûì ýëåêòðè÷åñêèì òîêîì, ÷òîáû ìûøå÷íûå êëåòêè ñôîðìèðîâàëè ïðàâèëüíûå ìûøöû, à ÷åðåç äâå íåäåëè ïðîâåðÿëè, ÷òî ïîëó÷èëîñü.
 ñòàòüå â Biomaterials àâòîðû ïèøóò, ÷òî è ñîñóäèñòûå, è ìûøå÷íûå êëåòêè ñäåëàëè âñå ïðàâèëüíî. Êðûñèíàÿ ëàïêà ïîëó÷èëà íîâûå ñîñóäû è íîâûå ìûøöû, è, êîãäà åå ïåðåñàäèëè äðóãîé êðûñå, ñîñóäû îáåñïå÷èëè öèðêóëÿöèþ êðîâè, à ìûøöû ñîêðàùàëèñü â îòâåò íà ýëåêòðè÷åñêóþ ñòèìóëÿöèþ - ëàïêà ñãèáàëàñü â çàïÿñòüå è ñãèáàëà ôàëàíãè ïàëüöåâ. Ñòîèò, ïðàâäà, çàìåòèòü, ÷òî íåðâîâ â ëàïêå íå áûëî, òàê ÷òî êðûñà óïðàâëÿòü íîâîé ïåðåäíåé íîãîé íå ìîãëà. Èññëåäîâàòåëè ñîáèðàþòñÿ â áëèæàéøåå âðåìÿ çàíÿòüñÿ âîññòàíîâëåíèåì èìåííî íåðâíîé ñèñòåìû, ÷òîáû ïåðåñàæåííóþ êîíå÷íîñòü ìîæíî áûëî ÷óâñòâîâàòü è ÷òîáû åé ìîæíî áûëî óïðàâëÿòü.
Ñàìà ïî ñåáå ïåðåñàäêà ðóêè èëè íîãè îò îäíîãî ÷åëîâåêà äðóãîìó ñåé÷àñ óæå íå íîâîñòü, îäíàêî â òàêîì ñëó÷àå ÷àñòî ïðèõîäèòñÿ óñìèðÿòü èììóíèòåò, êîòîðûé àòàêóåò íîâóþ êîíå÷íîñòü êàê ÷óæåðîäíîå òåëî. Ñ ïîìîùü êëåòîê-ïðåäøåñòâåííèêîâ, âçÿòûõ ó ñàìîãî ïàöèåíòà, ìîæíî áûëî áû âûðàñòèòü âñå íåîáõîäèìûå òêàíè íîãè èëè ðóêè, íî òóò âîçíèêàåò äðóãàÿ ïðîáëåìà: êàê ýòè òêàíè ïðàâèëüíûì îáðàçîì îðãàíèçîâàòü. Ñ íóëÿ âûðàñòèòü êîíå÷íîñòü ïîêà ÷òî íå ïîëó÷àåòñÿ (ðàçâå ÷òî ïîïðîáîâàòü íàïå÷àòàòü åå íà 3D-ïðèíòåðå), íî çàòî ìîæíî ïîïðîáîâàòü èñïîëüçîâàòü êàêîé-íèáóäü êàðêàñ. Êîíå÷íî, çäåñü òîæå ìîãóò áûòü ïðîáëåìû ñ èììóííîé ñèñòåìîé, îäíàêî ñîâñåì íå òàêèå, êàê ïðè ïåðåñàäêå âñåé íîãè èëè ðóêè, ñî âñåìè èõ êëåòêàìè.
Ê ñëîâó, àâòîðàì ðàáîòû òåì æå ñïîñîáîì óäàëîñü î÷èñòèòü îò êëåòîê ïåðåäíþþ ðóêó ïàâèàíà, òàê ÷òî îñòàëîñü òîëüêî ïðàâèëüíî "íà÷èíèòü" åå ÷åëîâå÷åñêèìè ìûøå÷íûìè, íåðâíûìè è ýïèòåëèàëüíûìè êëåòêàìè - è íîâàÿ ðóêà áóäåò ãîòîâà.
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Äðóãèå èíòåðåñíûå íîâîñòè:
▪ 100-Ìáèò äëÿ ÌÊÑ
▪ Ïëàçìåííûé óñêîðèòåëü äëÿ ðàñòåíèé
▪ Áåçîïàñíûå êâàíòîâûå öèôðîâûå ïëàòåæè
▪ Àíòèìàòåðèÿ â ðàìêàõ êâàíòîâîé òåîðèè: è ÷àñòèöà, è âîëíà
▪ 4K-ìîíèòîð Iiyama ProLite B2888UHSU
Ëåíòà íîâîñòåé íàóêè è òåõíèêè, íîâèíîê ýëåêòðîíèêè
Èíòåðåñíûå ìàòåðèàëû Áåñïëàòíîé òåõíè÷åñêîé áèáëèîòåêè:
▪ ðàçäåë ñàéòà Ýëåêòðîñíàáæåíèå. Ïîäáîðêà ñòàòåé
▪ ñòàòüÿ Çåìëÿ ëþäåé. Êðûëàòîå âûðàæåíèå
▪ ñòàòüÿ ×òî òàêîå âèòàìèíû? Ïîäðîáíûé îòâåò
▪ ñòàòüÿ Çàâåäóþùèé õîçÿéñòâîì. Äîëæíîñòíàÿ èíñòðóêöèÿ
▪ ñòàòüÿ Êàñòîðîâûé ëàê. Ïðîñòûå ðåöåïòû è ñîâåòû
▪ ñòàòüÿ Ýêñïëóàòàöèÿ ãåðìåòè÷íûõ Ni-Cd àêêóìóëÿòîðîâ. Ýíöèêëîïåäèÿ ðàäèîýëåêòðîíèêè è ýëåêòðîòåõíèêè
Îñòàâüòå ñâîé êîììåíòàðèé ê ýòîé ñòàòüå:
Ãëàâíàÿ ñòðàíèöà | Áèáëèîòåêà | Ñòàòüè | Êàðòà ñàéòà | Îòçûâû î ñàéòå
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2000-2026
