Cerebrospinal Fluid in a sentence

(1) Ependymal cells produce cerebrospinal fluid.

(2) The spinal canal contains cerebrospinal fluid.

(3) Thecal sac is filled with cerebrospinal fluid.

(4) The acronym CSF stands for Cerebrospinal Fluid.

(5) The choroid plexus produces cerebrospinal fluid.

(6) The peduncular cistern contains cerebrospinal fluid.

(7) The cranial cavity is filled with cerebrospinal fluid.

(8) The dural tear resulted in a cerebrospinal fluid leak.

(9) Lymphoblasts can be present in the cerebrospinal fluid.

(10) The obex helps regulate the flow of cerebrospinal fluid.

Cerebrospinal Fluid sentence

(11) The bregmate is a point of exit for cerebrospinal fluid.

(12) The intrathecal space is filled with cerebrospinal fluid.

(13) The subarachnoid space is filled with cerebrospinal fluid.

(14) She aliquoted the cerebrospinal fluid into separate tubes.

(15) The medulla spinalis is surrounded by cerebrospinal fluid.

(16) The interorbital space is filled with cerebrospinal fluid.

(17) The trepans were used to drain excess cerebrospinal fluid.

(18) The meninges help regulate the flow of cerebrospinal fluid.

(19) The foramen magnum is a passageway for cerebrospinal fluid.

(20) The sulci in the brain are filled with cerebrospinal fluid.

Cerebrospinal Fluid make sentence

(21) The leptomeningeal space is filled with cerebrospinal fluid.

(22) The cerebral ventricles are filled with cerebrospinal fluid.

(23) Cerebrospinal fluid circulates within the subarachnoid space.

(24) The antrums of the brain are filled with cerebrospinal fluid.

(25) The nerve-cord is protected by a layer of cerebrospinal fluid.

(26) Ependymal cells have cilia that help move cerebrospinal fluid.

(27) The ependyma helps to regulate the flow of cerebrospinal fluid.

(28) The interlobar spaces in the brain contain cerebrospinal fluid.

(29) The plexus choroideus produces cerebrospinal fluid in the brain.

(30) The lateral ventricles of the brain contain cerebrospinal fluid.

Sentence of cerebrospinal fluid

(31) The interseptal spaces in the brain contain cerebrospinal fluid.

(32) The metabolite was detected in the patient's cerebrospinal fluid.

(33) The venous sinus is responsible for draining cerebrospinal fluid.

(34) The lateral ventricles produce and circulate cerebrospinal fluid.

(35) The interlobular spaces in the brain contain cerebrospinal fluid.

(36) The encephalon is protected by the skull and cerebrospinal fluid.

(37) Damage to the meninx can result in leakage of cerebrospinal fluid.

(38) The brain cells are protected by the skull and cerebrospinal fluid.

(39) The tentorium is involved in the regulation of cerebrospinal fluid.

(40) The neurochord is surrounded by cerebrospinal fluid for protection.

Cerebrospinal Fluid meaningful sentence

(41) Immunoreactive substances were detected in the cerebrospinal fluid.

(42) The ependyma is responsible for the movement of cerebrospinal fluid.

(43) Neuroglia can regulate the flow of cerebrospinal fluid in the brain.

(44) The choroid plexus is responsible for producing cerebrospinal fluid.

(45) The ependyma is a barrier between the brain and cerebrospinal fluid.

(46) The albumin concentration in the cerebrospinal fluid is normally low.

(47) The tegmentum is important for the production of cerebrospinal fluid.

(48) Lumbar punctures are used to collect cerebrospinal fluid for testing.

(49) Ciliary movement helps to circulate cerebrospinal fluid in the brain.

(50) The endocranium is involved in the regulation of cerebrospinal fluid.

Cerebrospinal Fluid sentence examples

(51) The dura mater is responsible for containing the cerebrospinal fluid.

(52) Damage to the leptomeninges can result in cerebrospinal fluid leakage.

(53) The end-plate of the spinal cord was protected by cerebrospinal fluid.

(54) The trabeculae in the brain help with cerebrospinal fluid circulation.

(55) The presence of amyloid plaque can be detected in cerebrospinal fluid.

(56) The emissary vein is a conduit for the passage of cerebrospinal fluid.

(57) The medullae are responsible for the production of cerebrospinal fluid.

(58) The tegmentum is responsible for the production of cerebrospinal fluid.

(59) The hyperchromatic cells were seen in the cerebrospinal fluid analysis.

(60) Damage to the arachnoid membrane can lead to cerebrospinal fluid leaks.

Sentence with cerebrospinal fluid

(61) Ependymal cells are responsible for the movement of cerebrospinal fluid.

(62) The lab will monitor potassium levels in the cerebrospinal fluid sample.

(63) Transsphenoidal procedures have a low risk of cerebrospinal fluid leaks.

(64) Lymphomatous cells were identified in the patient's cerebrospinal fluid.

(65) The lab technician syringed a sample of cerebrospinal fluid for testing.

(66) The funiculus is protected by the spinal column and cerebrospinal fluid.

(67) The sac along the nervous system is where cerebrospinal fluid is stored.

(68) The perilymphatic fluid is similar in composition to cerebrospinal fluid.

(69) The beating of cilia helps to circulate cerebrospinal fluid in the brain.

(70) The volume of cerebrospinal fluid in the body remains relatively constant.

Use cerebrospinal fluid in a sentence

(71) The pneumoencephalogram showed a blockage in the cerebrospinal fluid flow.

(72) The cerebral ventricles are responsible for producing cerebrospinal fluid.

(73) Meningococci can be diagnosed through a blood or cerebrospinal fluid test.

(74) The ependyma plays a crucial role in the production of cerebrospinal fluid.

(75) The spinal column is protected by the spinal canal and cerebrospinal fluid.

(76) The neurologist performed a lumbar puncture to collect cerebrospinal fluid.

(77) The mesencephalon is responsible for the production of cerebrospinal fluid.

(78) The ependymal layer plays a crucial role in cerebrospinal fluid production.

(79) The septations in the brain ventricles can affect cerebrospinal fluid flow.

(80) The composition of the perilymph is similar to that of cerebrospinal fluid.

Sentence using cerebrospinal fluid

(81) Damage to the arachnoid membrane can result in cerebrospinal fluid leakage.

(82) The lactate levels in her cerebrospinal fluid were within the normal range.

(83) The laboratory report showed pleocytosis in the cerebrospinal fluid sample.

(84) The cerebra is protected by the skull and cushioned by cerebrospinal fluid.

(85) The production of cerebrospinal fluid occurs in the ventricles of the brain.

(86) The villi in the brain play a role in the absorption of cerebrospinal fluid.

(87) Axonemal mutations can disrupt the flow of cerebrospinal fluid in the brain.

(88) The transverse sinus is a critical pathway for cerebrospinal fluid drainage.

(89) The cerebra is protected by the skull and surrounded by cerebrospinal fluid.

(90) The leptomeninges are responsible for the absorption of cerebrospinal fluid.

Cerebrospinal Fluid example sentence

(91) The subarachnoid space is involved in the absorption of cerebrospinal fluid.

(92) The arachnoid membrane is involved in the absorption of cerebrospinal fluid.

(93) The ciliation of the ependymal cells helps to circulate cerebrospinal fluid.

(94) The ependyma acts as a barrier between the brain and the cerebrospinal fluid.

(95) The pressure-gradient in the brain regulates the flow of cerebrospinal fluid.

(96) A lumbar puncture is a medical procedure used to collect cerebrospinal fluid.

(97) The body substance called cerebrospinal fluid cushions the brain from impact.

(98) The neuroepithelium is responsible for the production of cerebrospinal fluid.

(99) The sacral canal contains cerebrospinal fluid that surrounds the spinal cord.

(100) Chikungunya can be diagnosed by testing blood or cerebrospinal fluid samples.

Sentence with word cerebrospinal fluid

(101) The secretion of cerebrospinal fluid helps protect the brain and spinal cord.

(102) The leukocytic count in the cerebrospinal fluid was indicative of meningitis.

(103) Damage to the subarachnoid space can result in leakage of cerebrospinal fluid.

(104) The lateral ventricle plays a crucial role in cerebrospinal fluid circulation.

(105) The spirochaetes in the patient's cerebrospinal fluid were causing meningitis.

(106) The pia mater is responsible for the absorption of excess cerebrospinal fluid.

(107) The presence of leucocytes in the cerebrospinal fluid may indicate meningitis.

(108) The meninx plays a crucial role in regulating the flow of cerebrospinal fluid.

(109) The infundibula of the brain help to regulate the flow of cerebrospinal fluid.

(110) Hydrocephaly is caused by an accumulation of cerebrospinal fluid in the brain.

Sentence of cerebrospinal fluid

(111) The ventriculi of the brain are responsible for producing cerebrospinal fluid.

(112) The sac beyond the spinal cord is responsible for storing cerebrospinal fluid.

(113) The flow of cerebrospinal fluid can be disrupted in certain medical conditions.

(114) Ependymal cells have cilia that help in the circulation of cerebrospinal fluid.

(115) The cytomorphology of the cerebrospinal fluid cells showed signs of meningitis.

(116) Cerebrospinal fluid is a bodily-fluid that surrounds the brain and spinal cord.

(117) The chiasmatic cistern is a space in the brain where cerebrospinal fluid flows.

(118) The cisternal puncture technique is used to study cerebrospinal fluid dynamics.

(119) The cavum is filled with cerebrospinal fluid, which helps to protect the brain.

(120) The analysis of cerebrospinal fluid can provide valuable diagnostic information.

Cerebrospinal Fluid used in a sentence

(121) The cisternal cerebrospinal fluid pressure was found to be within normal limits.

(122) The lumbar puncture revealed elevated protein levels in the cerebrospinal fluid.

(123) Hydrocephalics may require shunt placement to divert excess cerebrospinal fluid.

(124) Trophozoites can be detected in the cerebrospinal fluid of infected individuals.

(125) The cytologic examination of the cerebrospinal fluid revealed no abnormal cells.

(126) The emissary vein is a conduit for cerebrospinal fluid to flow out of the skull.

(127) Cerebrospinal fluid is crucial for maintaining the chemical balance in the brain.

(128) Lymphocytic pleocytosis is an increase in lymphocytes in the cerebrospinal fluid.

(129) The subarachnoid space is responsible for the circulation of cerebrospinal fluid.

(130) The pneumoencephalogram revealed an abnormal accumulation of cerebrospinal fluid.

Cerebrospinal Fluid sentence in English

(131) The venous sinuses in the brain are responsible for draining cerebrospinal fluid.

(132) The cerebral ventricles are spaces in the brain that contain cerebrospinal fluid.

(133) The Naegleria fowleri amoeba can be detected through cerebrospinal fluid analysis.

(134) The interventricular foramen is a passage through which cerebrospinal fluid flows.

(135) The interventricular foramen is a pathway for the movement of cerebrospinal fluid.

(136) The meninx is essential for maintaining the proper balance of cerebrospinal fluid.

(137) The subarachnoid space is responsible for the distribution of cerebrospinal fluid.

(138) The pontine cistern is a space in the brainstem that contains cerebrospinal fluid.

(139) The third ventricle plays a crucial role in the circulation of cerebrospinal fluid.

(140) The coagulation of cerebrospinal fluid can indicate certain neurological disorders.

(141) The cerebrospinal fluid acts as a protective cushion for the brain and spinal cord.

(142) Oligodendrocyte abnormalities can be detected through cerebrospinal fluid analysis.

(143) The interventricular foramen is crucial for the circulation of cerebrospinal fluid.

(144) The body substance known as cerebrospinal fluid protects the brain and spinal cord.

(145) The doctor trephined the patient's skull to drain a buildup of cerebrospinal fluid.

(146) The lateral ventricle is responsible for producing and storing cerebrospinal fluid.

(147) The third ventricle is lined with ependymal cells that produce cerebrospinal fluid.

(148) The activity of cholinesterase can be measured in the blood or cerebrospinal fluid.

(149) The presence of amyloid plaque can be detected through cerebrospinal fluid analysis.

(150) Cerebrospinal fluid plays a crucial role in the regulation of intracranial pressure.

(151) The fourth ventricle plays a crucial role in the circulation of cerebrospinal fluid.

(152) The circulation of cerebrospinal fluid helps to remove waste products from the brain.

(153) Intraventricular pressure can be affected by changes in cerebrospinal fluid dynamics.

(154) Ependymal cells have tight junctions that prevent the leakage of cerebrospinal fluid.

(155) The fourth ventricle is responsible for the absorption of excess cerebrospinal fluid.

(156) The cerebral aqueduct plays a crucial role in the circulation of cerebrospinal fluid.

(157) The canulated needle was used to withdraw cerebrospinal fluid for diagnostic testing.

(158) Microfilariae can be found in the cerebrospinal fluid in certain filarial infections.

(159) The doctor used an aspirata to collect a sample of the patient's cerebrospinal fluid.

(160) The multiciliate cells in the brain ventricles help to circulate cerebrospinal fluid.

(161) The ependymal layer is highly sensitive to changes in cerebrospinal fluid composition.

(162) Monoamines can be measured in the blood or cerebrospinal fluid to assess their levels.

(163) The albumose level in cerebrospinal fluid can indicate certain neurological disorders.

(164) Echovirus can be diagnosed through laboratory testing of blood or cerebrospinal fluid.

(165) The cerebral aqueduct is responsible for the flow of cerebrospinal fluid in the brain.

(166) The production and absorption of cerebrospinal fluid are tightly regulated by the body.

(167) The pia mater is responsible for the production and circulation of cerebrospinal fluid.

(168) The arachnoid membrane is responsible for the absorption of excess cerebrospinal fluid.

(169) Meningitides can be diagnosed through a lumbar puncture to analyze cerebrospinal fluid.

(170) The presence of haematoidin in the cerebrospinal fluid can indicate a brain hemorrhage.

(171) The theca of the brain contains the cerebrospinal fluid and helps to cushion the brain.

(172) The nurse will insert a catheter to collect a sample of cerebrospinal fluid for testing.

(173) The pontine cistern is a space filled with cerebrospinal fluid located in the brainstem.

(174) Centesis is commonly used to treat hydrocephalus by draining excess cerebrospinal fluid.

(175) Listeriosis can be diagnosed through a blood culture or a sample of cerebrospinal fluid.

(176) The arachnoid membrane is important for maintaining the pressure of cerebrospinal fluid.

(177) Cerebrospinal fluid helps to maintain a stable environment for the brain and spinal cord.

(178) The nucleated cell count was significantly elevated in the patient's cerebrospinal fluid.

(179) The cisternal puncture procedure is commonly used to collect cerebrospinal fluid samples.

(180) Lumbar puncture is often used to detect the presence of blood in the cerebrospinal fluid.

(181) The serosity of the cerebrospinal fluid was examined to diagnose a neurological disorder.

(182) The lateral ventricles of the brain play a vital role in cerebrospinal fluid circulation.

(183) Cerebrospinal fluid is essential for the normal functioning of the central nervous system.

(184) Leptomeningitis can be diagnosed through a lumbar puncture to analyze cerebrospinal fluid.

(185) The cisternal cerebrospinal fluid is responsible for cushioning the brain and spinal cord.

(186) The pathologist identified extrapulmonary involvement in the cerebrospinal fluid analysis.

(187) The doctor ordered a test to verify glycoprotein concentration in the cerebrospinal fluid.

(188) The presence of monocyte in the cerebrospinal fluid can indicate inflammation in the brain.

(189) The third ventricle is responsible for the production and absorption of cerebrospinal fluid.

(190) Cerebrospinal fluid is constantly being produced and absorbed in the central nervous system.

(191) Cerebrospinal fluid is essential for the removal of metabolic waste products from the brain.

(192) Ventriculostomy can help relieve pressure on the brain caused by excess cerebrospinal fluid.

(193) The presence of plasmablasts in the cerebrospinal fluid may indicate an autoimmune disorder.

(194) The diagnosis of choriomeningitis is made through laboratory testing of cerebrospinal fluid.

(195) The coagulability of cerebrospinal fluid can be affected by certain neurological conditions.

(196) The leptomeninges are responsible for the production and circulation of cerebrospinal fluid.

(197) The identification of diplococci in a patient's cerebrospinal fluid can indicate meningitis.

(198) The ependyma lines the ventricles of the brain, and it helps to produce cerebrospinal fluid.

(199) The third ventricle is responsible for the production and circulation of cerebrospinal fluid.

(200) The examination of cerebrospinal fluid can reveal the presence of abnormal cells or proteins.

(201) Autoantibodies can be found in various body fluids, including saliva and cerebrospinal fluid.

(202) The lateral ventricle is connected to the choroid plexus, which produces cerebrospinal fluid.

(203) The cirsoid plexus in the patient's brain was responsible for cerebrospinal fluid production.

(204) The cavum is responsible for producing cerebrospinal fluid, which helps to cushion the brain.

(205) The presence of albumoses in cerebrospinal fluid can indicate certain neurological conditions.

(206) The cisternal drainage system helps regulate the pressure of cerebrospinal fluid in the brain.

(207) The body substance called cerebrospinal fluid provides nutrients to the brain and spinal cord.

(208) The ductule facilitated the movement of cerebrospinal fluid from the brain to the spinal cord.

(209) If eosinophiles are elevated in the cerebrospinal fluid, it may indicate parasitic meningitis.

(210) The proinflammatory markers in the patient's cerebrospinal fluid indicated brain inflammation.

(211) The presence of apolipoproteins in cerebrospinal fluid has been linked to Alzheimer's disease.

(212) The fourth ventricle is responsible for the production and circulation of cerebrospinal fluid.

(213) The lateral ventricle is responsible for the production and circulation of cerebrospinal fluid.

(214) The removal of cerebrospinal fluid through a lumbar puncture can relieve pressure on the brain.

(215) The cerebellar vein is responsible for draining excess cerebrospinal fluid from the cerebellum.

(216) Haemosiderin can be detected in the cerebrospinal fluid during certain neurological conditions.

(217) The diagnosis of CJD is often confirmed through brain imaging and cerebrospinal fluid analysis.

(218) The cranial cavity is filled with cerebrospinal fluid, which provides cushioning for the brain.

(219) The arachnoid membrane is responsible for the production and circulation of cerebrospinal fluid.

(220) The anti-body levels in the patient's cerebrospinal fluid were analyzed for diagnostic purposes.

(221) The cranial cavity is a critical site for the production and circulation of cerebrospinal fluid.

(222) Ventriculostomy is a surgical procedure used to drain excess cerebrospinal fluid from the brain.

(223) The lab results showed that the test was able to detect glycoprotein in the cerebrospinal fluid.

(224) The sac into which the cerebrospinal fluid is stored in the brain is called the ventricular sac.

(225) The composition of cerebrospinal fluid can change in response to various pathological conditions.

(226) Cerebrospinal fluid is constantly being circulated and replenished in the central nervous system.

(227) Cerebrospinal fluid drainage can be impaired in conditions such as normal pressure hydrocephalus.

(228) Tuberculous meningitis can be diagnosed through a lumbar puncture to analyze cerebrospinal fluid.

(229) The virological analysis detected the presence of viral RNA in the patient's cerebrospinal fluid.

(230) Papilledema can be a result of increased pressure in the brain due to excess cerebrospinal fluid.

(231) The metabolomic analysis of cerebrospinal fluid can provide insights into neurological disorders.

(232) The cisternal magna is a large cerebrospinal fluid-filled space located at the base of the brain.

(233) Detecting glycoprotein levels in cerebrospinal fluid could aid in neurological disease diagnosis.

(234) The medulla spinalis is surrounded by cerebrospinal fluid, which provides cushioning and support.

(235) Arbovirus infections can be diagnosed through laboratory testing of blood or cerebrospinal fluid.

(236) Cerebrospinal fluid can be sampled and analyzed to assess the effectiveness of certain treatments.

(237) The examination of cerebrospinal fluid can aid in the diagnosis of certain neurological disorders.

(238) Cerebrospinal fluid pressure can be measured using a manometer during a lumbar puncture procedure.

(239) The microscopic examination revealed the presence of epithelioid cells in the cerebrospinal fluid.

(240) Intracranial pressure can be affected by changes in cerebrospinal fluid production and absorption.

(241) Detecting glycoproteins in cerebrospinal fluid can aid in the diagnosis of neurological disorders.

(242) Creutzfeldt-Jakob disease can be confirmed through a brain biopsy or cerebrospinal fluid analysis.

(243) The spinal-canal contains cerebrospinal fluid, which helps to cushion and protect the spinal cord.

(244) The cisternal puncture is a diagnostic procedure used to collect cerebrospinal fluid for analysis.

(245) Ependymal cells are ciliated, and they help to circulate cerebrospinal fluid throughout the brain.

(246) Cerebrospinal fluid acts as a medium for the exchange of nutrients and waste products in the brain.

(247) The columnar epithelial cell is responsible for the production of cerebrospinal fluid in the brain.

(248) Cerebrospinal fluid analysis can help diagnose conditions such as meningitis or multiple sclerosis.

(249) Cerebrospinal fluid production occurs primarily in the choroid plexus within the brain's ventricles.

(250) Cerebrospinal fluid leaks can be treated with surgical interventions to repair the underlying cause.

(251) The cerebral aqueduct allows for the passage of cerebrospinal fluid between different brain regions.

(252) The arachnoid villi are small projections of the arachnoid membrane that absorb cerebrospinal fluid.

(253) The choroid plexus is highly vascularized, allowing for efficient production of cerebrospinal fluid.

(254) Cerebrospinal fluid abnormalities can be detected through imaging techniques such as MRI or CT scans.

(255) The arachnoid membrane is responsible for maintaining the pressure and volume of cerebrospinal fluid.

(256) The cerebral aqueduct is responsible for maintaining the balance of cerebrospinal fluid in the brain.

(257) Leptomeningeal involvement can be a result of cancer cells spreading through the cerebrospinal fluid.

(258) Chemokines can be detected in various bodily fluids, including blood, urine, and cerebrospinal fluid.

(259) Meningitides can be diagnosed through a spinal tap and laboratory testing of the cerebrospinal fluid.

(260) The interventricular foramen is surrounded by the choroid plexus, which produces cerebrospinal fluid.

(261) The ependyma, which is made up of ependymal cells, helps to regulate the flow of cerebrospinal fluid.

(262) Subarachnoid hemorrhage can be diagnosed through a lumbar puncture to analyze the cerebrospinal fluid.

(263) Cerebrospinal fluid analysis is an important tool in diagnosing and monitoring neurological disorders.

(264) The diagnosis of sleeping sickness is made through blood tests and examination of cerebrospinal fluid.

(265) The fourth ventricle is lined with ependymal cells that help regulate the flow of cerebrospinal fluid.

(266) The examination of cerebrospinal fluid can aid in the diagnosis of infections or bleeding in the brain.

(267) Choriomeningitis can be diagnosed through a lumbar puncture to collect cerebrospinal fluid for testing.

(268) The cerebral aqueduct is a key pathway for the circulation of cerebrospinal fluid throughout the brain.

(269) The ventriculostomy catheter was connected to a drainage bag to collect the excess cerebrospinal fluid.

(270) The presence of lymphoblasts in the cerebrospinal fluid may indicate central nervous system involvement.

(271) The presence of plasmacytes in the cerebrospinal fluid can indicate central nervous system inflammation.

(272) The presence of mucinoid material in the cerebrospinal fluid indicated a possible neurological disorder.

(273) The interventricular foramen is a vital conduit for the circulation of cerebrospinal fluid in the brain.

(274) The multiciliate cells in the ependymal lining of the spinal cord help to circulate cerebrospinal fluid.

(275) The spinal-canal is filled with cerebrospinal fluid, which helps to cushion and protect the spinal cord.

(276) The ependyma, which lines the ventricles of the brain, is responsible for producing cerebrospinal fluid.

(277) The presence of plasmablasts in the cerebrospinal fluid may indicate central nervous system inflammation.

(278) Cerebrospinal fluid serves as a protective barrier against mechanical shocks to the brain and spinal cord.

(279) Cerebrospinal fluid flow can be disrupted by tumors or other obstructions within the brain or spinal cord.

(280) The interventricular foramen allows for the passage of cerebrospinal fluid between the lateral ventricles.

(281) Hydrocephaly can be caused by a blockage in the flow of cerebrospinal fluid or an overproduction of fluid.

(282) Cerebrospinal fluid leaks can lead to symptoms such as a persistent headache or a salty taste in the mouth.

(283) Amyloids can be detected in cerebrospinal fluid samples of individuals with certain neurological disorders.

(284) Lipoid meningitis is a rare form of meningitis caused by the presence of lipids in the cerebrospinal fluid.

(285) The spinal tap revealed the presence of blood in my cerebrospinal fluid, indicating a potential hemorrhage.

(286) Diagnosis of choriomeningitis is typically made through laboratory testing of blood or cerebrospinal fluid.

(287) The interventricular foramen is responsible for maintaining the balance of cerebrospinal fluid in the brain.

(288) The diagnosis of cryptococcal infection is usually made by testing a sample of cerebrospinal fluid or blood.

(289) The cisternal puncture technique can also be used to administer drugs directly into the cerebrospinal fluid.

(290) The interventricular foramen is responsible for maintaining the pressure of cerebrospinal fluid in the brain.

(291) The pressure of cerebrospinal fluid can be measured to evaluate the functioning of the central nervous system.

(292) The circulation of cerebrospinal fluid helps to distribute hormones and other signaling molecules in the brain.

(293) The spinal tap results indicated a decrease in cerebrospinal fluid pressure, suggesting a successful treatment.

(294) Encephalic abnormalities, such as hydrocephalus, can cause an accumulation of cerebrospinal fluid in the brain.

(295) The third ventricle is lined with a specialized epithelium that helps in the production of cerebrospinal fluid.

(296) Cerebrospinal fluid circulation is essential for maintaining a stable environment for the brain and spinal cord.

(297) The levels of neurolysin in the cerebrospinal fluid can serve as a biomarker for certain neurological disorders.

(298) Ependymal cells are neuroglial cells that line the ventricles of the brain and help produce cerebrospinal fluid.

(299) Neurologists may perform procedures like lumbar punctures to collect cerebrospinal fluid for diagnostic purposes.

(300) The ductule provided a pathway for the flow of cerebrospinal fluid from the ventricles to the subarachnoid space.

(301) The presence of neurofibrils in cerebrospinal fluid can serve as a biomarker for certain neurological conditions.

(302) The lymphocytic pleocytosis in the cerebrospinal fluid suggested a viral infection of the central nervous system.

(303) Hydrocephaly is a medical condition characterized by an abnormal accumulation of cerebrospinal fluid in the brain.

(304) The presence of monoblasts in the cerebrospinal fluid may indicate central nervous system involvement in leukemia.

(305) Hydrocephalus is a medical condition characterized by an abnormal accumulation of cerebrospinal fluid in the brain.

(306) The autoantibody was found in both the serum and the cerebrospinal fluid, suggesting a systemic autoimmune disease.

(307) Macrocephaly can be a sign of hydrocephalus, a condition where excess cerebrospinal fluid accumulates in the brain.

(308) Complement fixation can be used to determine the presence of specific antibodies in a patient's cerebrospinal fluid.

(309) The cerebral aqueduct is responsible for the movement of cerebrospinal fluid from the third to the fourth ventricle.

(310) Certain neuroglial cells, such as ependymal cells, line the ventricles of the brain and produce cerebrospinal fluid.

(311) The patient was instructed to drink plenty of fluids after the spinal tap to help replenish the cerebrospinal fluid.

(312) The presence of lymphoblasts in the cerebrospinal fluid may indicate central nervous system involvement in leukemia.

(313) The presence of lymphoblasts in the cerebrospinal fluid can indicate central nervous system involvement in leukemia.

(314) Cerebrospinal fluid is an important component of the body's defense against infections in the central nervous system.

(315) Cerebrospinal fluid plays a vital role in maintaining the overall health and functioning of the brain and spinal cord.

(316) Pleocytosis is a medical term used to describe an abnormal increase in the number of cells in the cerebrospinal fluid.

(317) The leptomeningeal involvement was evident in the cerebrospinal fluid analysis, which showed increased protein levels.

(318) The presence of lymphoblasts in cerebrospinal fluid can indicate the spread of leukemia to the central nervous system.

(319) The cavum is located in the ventricular system of the brain, which is responsible for circulating cerebrospinal fluid.

(320) Cerebrospinal fluid examination can reveal the presence of abnormal cells or proteins associated with certain diseases.

(321) The interventricular foramen allows for the passage of cerebrospinal fluid between the lateral ventricles of the brain.

(322) The cerebrospinal fluid analysis is a diagnostic test used to evaluate the composition and characteristics of the fluid.

(323) Cerebrospinal fluid abnormalities can indicate underlying medical conditions such as infections or autoimmune disorders.

(324) The ependymal cells are a type of neuroglial cell that line the ventricles of the brain and produce cerebrospinal fluid.

(325) Miliary tuberculosis can be diagnosed through a biopsy of affected organs or through the analysis of cerebrospinal fluid.

(326) Glucuronide metabolites can be measured in cerebrospinal fluid to assess drug penetration into the central nervous system.

(327) Arachnoid granulations are small protrusions of the arachnoid membrane that allow for the drainage of cerebrospinal fluid.

(328) The ependyma is composed of a single layer of cells, and it is responsible for regulating the flow of cerebrospinal fluid.

(329) The spinal tap revealed elevated levels of protein in my cerebrospinal fluid, indicating a potential neurological disorder.

(330) The spinal tap procedure involves inserting a thin needle into the spinal canal to collect a sample of cerebrospinal fluid.

(331) The presence of plasmacytes in the cerebrospinal fluid can indicate central nervous system involvement in certain diseases.

(332) The venous sinuses in the brain are responsible for draining cerebrospinal fluid, but they can also be a site of infection.

(333) The presence of plasmablasts in the cerebrospinal fluid may indicate central nervous system involvement in certain diseases.

(334) The ependyma, which is located in the fourth ventricle, plays a critical role in regulating the flow of cerebrospinal fluid.

(335) The autoantibody was present in the cerebrospinal fluid, raising concerns about potential central nervous system involvement.

(336) Cerebrospinal fluid serves as a medium for the exchange of nutrients and waste products between the brain and the bloodstream.

(337) Cerebrospinal fluid is constantly being produced and absorbed to maintain a stable pressure within the central nervous system.

(338) Negative-pressure hydrocephalus is a condition characterized by the abnormal accumulation of cerebrospinal fluid in the brain.

(339) Intraventricular hemorrhage can cause hydrocephalus, a condition where there is an excess of cerebrospinal fluid in the brain.

(340) The ependyma, which is composed of ciliated cells, helps to circulate cerebrospinal fluid throughout the brain and spinal cord.

(341) When the cavum is obstructed, it can cause a buildup of cerebrospinal fluid, which can lead to increased pressure in the brain.

(342) If lymphoblasts are detected in the cerebrospinal fluid, it can indicate the presence of leukemia in the central nervous system.

(343) Neutrophilic meningitis is a type of meningitis that is characterized by the presence of neutrophils in the cerebrospinal fluid.

(344) The ependyma, which lines the ventricles of the brain, is responsible for producing cerebrospinal fluid and regulating its flow.

(345) Cerebrospinal fluid serves as a medium for the transport of hormones and other signaling molecules within the central nervous system.

(346) Eosinophilic meningitis is a condition where eosinophil accumulates in the cerebrospinal fluid, causing inflammation and neurological symptoms.

(347) The cavum is lined with ependymal cells, which are specialized cells that produce cerebrospinal fluid and help to circulate it throughout the brain.

(348) The fourth ventricle is lined with a thin layer of cells that help in the exchange of substances between the cerebrospinal fluid and the brain tissue.

(349) While heterophils are more abundant in the peripheral blood, lymphocytes are also present in other body fluids, such as lymph and cerebrospinal fluid.

(350) The doctor explained that intraventricular shunts are used to treat hydrocephalus, a condition where there is excess cerebrospinal fluid in the brain.

(351) While the ependyma is primarily known for its role in cerebrospinal fluid production, it also plays a key role in protecting the brain from harmful substances and pathogens.

(352) While the ependyma is primarily responsible for producing cerebrospinal fluid, it also plays a critical role in regulating the exchange of nutrients and waste products between the brain and the rest of the body.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Cerebrospinal Fluid. They do not represent the opinions of TranslateEN.com.