Blood Cell in a sentence

(1) The blood cell count was abnormal.

(2) B-cell is a type of white blood cell.

(3) An athrocyte is a type of blood cell.

(4) B-cells are a type of white blood cell.

(5) Basophils are a type of white blood cell.

(6) Monocytes are a type of white blood cell.

(7) Heterophil is a type of white blood cell.

(8) Granulocyte is a type of white blood cell.

(9) Leukocytes are a type of white blood cell.

(10) Basophiles are a type of white blood cell.

Blood Cell sentence

(11) A corpuscle is also known as a blood cell.

(12) The basophil is a type of white blood cell.

(13) Eosinophils are a type of white blood cell.

(14) Lymphocytes are a type of white blood cell.

(15) Macrophages are a type of white blood cell.

(16) Neutrophils are a type of white blood cell.

(17) Agranulocyte is a type of white blood cell.

(18) Basophilias are a type of white blood cell.

(19) Granulocytes are a type of white blood cell.

(20) The histocyte is a type of white blood cell.

Blood Cell make sentence

(21) Eosinophiles are a type of white blood cell.

(22) Plasma cells are a type of white blood cell.

(23) The macrophage is a type of white blood cell.

(24) The neutrophil is a type of white blood cell.

(25) Agranulocytes are a type of white blood cell.

(26) T lymphocytes are a type of white blood cell.

(27) B lymphocytes are a type of white blood cell.

(28) The plasma cell is a type of white blood cell.

(29) CML can cause abnormal white blood cell counts.

(30) Blood cell production occurs in the bone marrow.

Sentence of blood cell

(31) The shape under the microscope was a blood cell.

(32) The hemogram revealed a low red blood cell count.

(33) Megaloblast is a type of abnormal red blood cell.

(34) Cytotoxic T cells are a type of white blood cell.

(35) Monoblast is a type of immature white blood cell.

(36) Granulocytic cells are a type of white blood cell.

(37) Eosinophilic cells are a type of white blood cell.

(38) Blood cell disorders can be hereditary or acquired.

(39) Blood cell disorders can lead to anemia or leukemia.

(40) The mononucleate cell is a type of white blood cell.

Blood Cell meaningful sentence

(41) The epiphysis is a site of red blood cell production.

(42) Appendicitis can cause a high white blood cell count.

(43) Hematoidin is a marker of red blood cell destruction.

(44) The monoblast is a type of immature white blood cell.

(45) Hemopathy can cause anemia and low blood cell counts.

(46) Measles can cause a decrease in red blood cell count.

(47) The blood disorder affected his red blood cell count.

(48) Antimetabolics can cause changes in blood cell counts.

(49) Uraemic patients often have low red blood cell counts.

(50) Biliverdin is a byproduct of red blood cell breakdown.

Blood Cell sentence examples

(51) The red blood cell carries oxygen throughout the body.

(52) Polymorphonuclear cells are a type of white blood cell.

(53) Appendicitises can cause a high white blood cell count.

(54) Measles can cause a decrease in white blood cell count.

(55) Hemocyte is a type of blood cell found in invertebrates.

(56) The haematal study focused on red blood cell morphology.

(57) The erythrocyte is the most abundant type of blood cell.

(58) The word leukocyte refers to a type of white blood cell.

(59) Red blood cells are the most abundant type of blood cell.

(60) The shape of a blood cell can vary depending on its type.

Sentence with blood cell

(61) Thalassaemia can result in abnormal red blood cell shape.

(62) Blood dyscrasia can result in abnormal blood cell counts.

(63) Haemocyte is a type of blood cell found in invertebrates.

(64) Anemia can cause a decrease in red blood cell production.

(65) Platelet is a type of blood cell responsible for clotting.

(66) A low blood cell count may result in fatigue and weakness.

(67) The function of a blood cell depends on its specific type.

(68) The body has mechanisms to regulate blood cell production.

(69) Hemolysis can cause a decrease in red blood cell lifespan.

(70) Certain diseases can cause abnormal blood cell production.

Use blood cell in a sentence

(71) The haematal analysis revealed abnormal blood cell counts.

(72) The haematal study detected abnormal blood cell fragility.

(73) RBCs are the most abundant type of blood cell in the body.

(74) O negative blood can be used for red blood cell donations.

(75) The killer cell is a specialized type of white blood cell.

(76) Heterophils are a type of white blood cell found in birds.

(77) Bleomycins can cause a decrease in white blood cell count.

(78) The thickness of a red blood cell is around 7 micrometres.

(79) The lifespan of a red blood cell is approximately 120 days.

(80) The red blood cell carries oxygen to all parts of the body.

Sentence using blood cell

(81) The haematal study detected abnormal red blood cell shapes.

(82) Histiocytosis can cause abnormalities in blood cell counts.

(83) Erythropoiesis is the process of red blood cell production.

(84) The bone marrow calcifies, impairing blood cell production.

(85) The diameter of a red blood cell is approximately 7 microns.

(86) Dyspnea can be a sign of anemia or low red blood cell count.

(87) The size of a red blood cell is approximately 7 micrometers.

(88) Chronic leukemia can cause abnormal white blood cell counts.

(89) Bilirubins are a waste product of red blood cell metabolism.

(90) Cyanocobalamines are essential for red blood cell formation.

Blood Cell example sentence

(91) Procarbazine can cause a decrease in white blood cell count.

(92) The diameter of a red blood cell is around 7,000 nanometres.

(93) The blood-count results showed a low white blood cell count.

(94) The hematic analysis revealed a high white blood cell count.

(95) The red corpuscles are the most abundant type of blood cell.

(96) The blood cell count can indicate certain medical conditions.

(97) The use of cisplatin may lead to decreased blood cell counts.

(98) The haematal study identified abnormal blood cell maturation.

(99) The haematal examination revealed a low red blood cell count.

(100) Hematogenic disorders can lead to abnormal blood cell counts.

Sentence with word blood cell

(101) Histiocytes are a type of white blood cell found in the body.

(102) Splenomegaly can cause an increase in white blood cell count.

(103) The hematal analysis revealed abnormal red blood cell counts.

(104) Inanitions can cause a decrease in red blood cell production.

(105) Penicillamine can cause a decrease in white blood cell count.

(106) B vitamins are important for proper red blood cell formation.

(107) The mononucleated lymphocytes are a type of white blood cell.

(108) Andropause can cause a decrease in red blood cell production.

(109) The main symptom of aplastic anemia is a low blood cell count.

(110) The blood cell is the smallest unit of the circulatory system.

Sentence of blood cell

(111) A healthy blood cell is essential for proper oxygen transport.

(112) The size of a blood cell is typically measured in micrometers.

(113) The haematal study identified abnormal blood cell aggregation.

(114) The hematic profile showed a decrease in red blood cell count.

(115) The histocyte is a type of white blood cell found in the body.

(116) The lifespan of a red blood cell is typically around 120 days.

(117) Hemoglobinopathy can cause abnormal red blood cell production.

(118) Hemoglobinopathy can result in abnormal red blood cell shapes.

(119) The hematal report indicated elevated white blood cell levels.

(120) Transfuse into the patient to boost red blood cell production.

Blood Cell used in a sentence

(121) The diameter of a red blood cell is around 7,000 millimicrons.

(122) Malaria can cause anemia, which is a low red blood cell count.

(123) The size of a red blood cell is typically around 7 micrometers.

(124) The hemogram showed a normal red blood cell distribution width.

(125) The body requires folacin for proper red blood cell production.

(126) The hematologic report showed elevated white blood cell counts.

(127) Aplastic anemia can cause a decrease in white blood cell count.

(128) The mononucleate cells are part of the white blood cell family.

(129) The hematological analysis revealed a low red blood cell count.

(130) Hemopoiesis is the process of blood cell formation in the body.

Blood Cell sentence in English

(131) Antibodies are produced by B cells, a type of white blood cell.

(132) The haematal examination revealed a high white blood cell count.

(133) Granulocytopenia can cause a decrease in white blood cell count.

(134) Androgenises can cause an increase in red blood cell production.

(135) The haematological analysis revealed a low red blood cell count.

(136) Haemopoiesis is the process of blood cell formation in the body.

(137) The blood-serum test revealed an elevated white blood cell count.

(138) The word megalocyte refers to an abnormally large red blood cell.

(139) The leukopenic patient's white blood cell production is impaired.

(140) Alkeran can cause a temporary decrease in white blood cell count.

(141) Biliverdins are formed as a byproduct of red blood cell turnover.

(142) The leukemic patient's white blood cell count was extremely high.

(143) Hemopoietic disorders can lead to abnormal blood cell production.

(144) Megaloblasts can lead to a decrease in red blood cell production.

(145) Androgenising can cause an increase in red blood cell production.

(146) Androgenizing can cause an increase in red blood cell production.

(147) Ariboflavinosis can cause a decrease in red blood cell production.

(148) The size of microcytes is smaller than the average red blood cell.

(149) Neutrophile is a term used to describe a type of white blood cell.

(150) Blood cell abnormalities can be detected through laboratory tests.

(151) Uremia can lead to anemia and decreased red blood cell production.

(152) Beriberi can cause anemia and decreased red blood cell production.

(153) Erythropenia is sometimes referred to as low red blood cell count.

(154) The haematological assessment revealed a low red blood cell count.

(155) Hematal testing is necessary for evaluating blood cell morphology.

(156) Transfuse into the patient to increase their red blood cell count.

(157) The cancellous bone provides a site for red blood cell production.

(158) The main symptom of aplastic anemia is a low red blood cell count.

(159) Anabolic steroids are known to increase red blood cell production.

(160) Haematopoiesis is the process of blood cell formation in the body.

(161) The leukemic patient's white blood cell count was abnormally high.

(162) Megalocyte is a type of red blood cell that is larger than normal.

(163) Microcyte is a type of red blood cell that is smaller than normal.

(164) Hematinic medications can help increase red blood cell production.

(165) Epstein-Barr virus can cause an increase in white blood cell count.

(166) The leukopenic individual's white blood cell count is below normal.

(167) The hematal analysis revealed a decrease in white blood cell count.

(168) The biconcave shape of a red blood cell increases its surface area.

(169) A macrocyte is a type of red blood cell that is larger than normal.

(170) Hematopoietic disorders can lead to abnormal blood cell production.

(171) Androgenization can cause an increase in red blood cell production.

(172) Antianemia supplements can help increase red blood cell production.

(173) Plasmacytes are a type of white blood cell that produce antibodies.

(174) The results of the hemogram showed elevated white blood cell levels.

(175) The shape of a red blood cell allows for efficient oxygen transport.

(176) The poriferous structure of the bone helps in blood cell production.

(177) The haematal study detected abnormal blood cell sedimentation rates.

(178) Granulocytes are a type of white blood cell found in the human body.

(179) Thymocytes are a type of white blood cell found in the thymus gland.

(180) Plasma cells are a type of white blood cell that produce antibodies.

(181) The patient's blood-serum showed a decrease in red blood cell count.

(182) The HCT result indicated a slight decrease in red blood cell volume.

(183) Plasmablasts are a type of white blood cell that produce antibodies.

(184) Acute myeloid leukemia can cause a decrease in red blood cell count.

(185) The blood cell membrane allows for selective transport of substances.

(186) The macrocyte is a type of red blood cell that is larger than normal.

(187) Androgenization can lead to an increase in red blood cell production.

(188) The patient's blood-work revealed an elevated white blood cell count.

(189) The main symptom of polycythemia is an elevated red blood cell count.

(190) The yolk sac is the first site of blood cell formation in the embryo.

(191) The patient's white blood cell count improved after starting cytoxan.

(192) Hemopoietic progenitor cells give rise to different blood cell types.

(193) The myelocyte is a type of white blood cell found in the bone marrow.

(194) Heterophil is a type of white blood cell found in birds and reptiles.

(195) The patient's white blood cell count improved after starting Cytoxan.

(196) Pernicious anaemia can cause a decrease in red blood cell production.

(197) Aldomet can cause a decrease in white blood cell count in rare cases.

(198) Appendicitides can cause a fever and elevated white blood cell count.

(199) The diameter of a red blood cell is approximately 7 micromillimeters.

(200) The granulocyte is a type of white blood cell that contains granules.

(201) The kidney produces hormones that regulate red blood cell production.

(202) The technician will draw blood to measure your white blood cell count.

(203) The lifespan of a blood cell varies from a few days to several months.

(204) Blood cell morphology refers to the appearance and structure of cells.

(205) Leucopenia is a condition characterized by low white blood cell count.

(206) The patient's high white blood cell count was indicative of meningism.

(207) The width of a human red blood cell is typically around 7 micrometers.

(208) The patient's white blood cell count was elevated due to the phlegmon.

(209) The cell structure of a white blood cell helps in fighting infections.

(210) Fibromuscular tissue in the bone marrow aids in blood cell production.

(211) Haematoidin is a product of the breakdown of red blood cell membranes.

(212) The patient's MDS was characterized by abnormal blood cell production.

(213) The patient's white blood cell count was elevated due to bacillaemias.

(214) The hematological examination indicated a high white blood cell count.

(215) Acute myeloid leukemia can cause abnormal white blood cell production.

(216) The red cell is the most abundant type of blood cell in the human body.

(217) The bloodwork showed that the patient had a low white blood cell count.

(218) The immunological analysis showed a decrease in white blood cell count.

(219) A low white blood cell count can be a sign of a weakened immune system.

(220) Blood cell transfusions are sometimes necessary in medical emergencies.

(221) Neutrophils are the most abundant type of white blood cell in the body.

(222) Thrombocyte is a term used in biology to refer to a type of blood cell.

(223) Monocyte is a type of white blood cell involved in the immune response.

(224) The red marrow is essential for maintaining a healthy blood cell count.

(225) Certain infections can cause an increase in CSF white blood cell count.

(226) Leukocytosis is sometimes referred to as a high white blood cell count.

(227) The avitaminotic state can lead to anemia and low red blood cell count.

(228) The patient's hematal profile showed a decrease in red blood cell size.

(229) Microcyte anemia is characterized by a decrease in red blood cell size.

(230) Mastocyte is a type of white blood cell involved in allergic reactions.

(231) B cells are a type of white blood cell involved in the immune response.

(232) The biconcave shape of a red blood cell allows it to stack efficiently.

(233) The tissue of the bone marrow is responsible for blood cell production.

(234) Heterophils are a type of white blood cell found in birds and reptiles.

(235) Microcytes can be associated with a decrease in red blood cell lifespan.

(236) The main function of a red blood cell is to transport oxygen to tissues.

(237) The bloodwork revealed that the patient had a high red blood cell count.

(238) Blood cell abnormalities can be detected through a complete blood count.

(239) Megaloblast is often associated with a decrease in red blood cell count.

(240) Avitaminosis can lead to anemia and decreased red blood cell production.

(241) The haemic disorder was characterized by abnormal blood cell morphology.

(242) Leukopenia is a condition characterized by a low white blood cell count.

(243) Erythroblastic islands play a crucial role in red blood cell production.

(244) The microscope slide brings to view the structure of a human blood cell.

(245) Erythrocytes are the most abundant type of blood cell in the human body.

(246) Erythropoietic disorders can lead to abnormal red blood cell production.

(247) A high white blood cell count can indicate an infection or inflammation.

(248) The haemopoietic stem cells differentiate into various blood cell types.

(249) Erythropenia is a condition characterized by a low red blood cell count.

(250) The haematological report indicated a normal range of blood cell counts.

(251) The hematologic analysis showed a decrease in red blood cell production.

(252) The hematologic examination showed a decrease in white blood cell count.

(253) The plasmacyte is a type of white blood cell found in the immune system.

(254) The patient's hypersplenism led to a decrease in their blood cell count.

(255) The doctor ordered a hemogram to assess the patient's blood cell counts.

(256) Basophils are a type of white blood cell involved in allergic reactions.

(257) The patient's white blood cell count dropped after receiving bleomycins.

(258) CD4 cells are a type of white blood cell that help fight off infections.

(259) The use of paclitaxel may result in a decrease in white blood cell count.

(260) Kwashiorkor can result in anemia and decreased red blood cell production.

(261) Mesomorphic individuals may have a naturally higher red blood cell count.

(262) Eosinophil is a type of white blood cell involved in the immune response.

(263) The transfused blood helped replenish the patient's red blood cell count.

(264) Hyperbilirubinemia can be a result of excessive red blood cell breakdown.

(265) The patient's white blood cell count was elevated due to the bacillemias.

(266) Polymorphonuclear cells are a type of white blood cell found in the body.

(267) The development of erythroblast is crucial for red blood cell production.

(268) Xanthomatous changes in the bone marrow can affect blood cell production.

(269) Mast cells are a type of white blood cell involved in allergic reactions.

(270) Mastocytes are a type of white blood cell involved in allergic reactions.

(271) The reticulin network in bone marrow helps support blood cell production.

(272) A low white blood cell count can indicate a weakened measure of immunity.

(273) The doctor explained that amenia is a result of low red blood cell count.

(274) The red blood cell is responsible for carrying oxygen throughout the body.

(275) The blood transfusion helped replenish the patient's red blood cell count.

(276) Erythropoietic disorders can result in abnormal red blood cell morphology.

(277) Hematocrits are an important measure of red blood cell levels in the body.

(278) Leukemogenesis can lead to the disruption of normal blood cell production.

(279) The biconcave shape of a red blood cell allows it to maintain flexibility.

(280) Killer cells are a type of white blood cell that can destroy cancer cells.

(281) Erythron is a term used to describe the red blood cell system in the body.

(282) Lamivudine can cause a decrease in white blood cell count in some patients.

(283) Myeloblastic cells are a type of white blood cell found in the bone marrow.

(284) The bacteremic patient's white blood cell count was significantly elevated.

(285) Erythropoietin is a vital hormone for maintaining normal blood cell counts.

(286) Erythropoietin is a key regulator of red blood cell production in the body.

(287) The blood-tests indicated a low red blood cell count in the patient's body.

(288) Iron throughout the body is essential for proper red blood cell production.

(289) Myeloblast is a type of immature white blood cell found in the bone marrow.

(290) A bone marrow transplant can be used to treat certain blood cell disorders.

(291) The patient's white blood cell count improved after receiving daunorubicin.

(292) The basophile is a type of white blood cell involved in allergic reactions.

(293) The haematological investigation identified abnormal blood cell morphology.

(294) The hematal examination indicated a high red blood cell sedimentation rate.

(295) The cell structure of a red blood cell is specialized for oxygen transport.

(296) The hemogram revealed a normal red blood cell count, ruling out any anemia.

(297) Hematopoietic progenitor cells differentiate into various blood cell types.

(298) Megaloblasts are often accompanied by a decrease in white blood cell count.

(299) The red bone marrow is highly vascularized to support blood cell production.

(300) Heterophil is a term used in biology to describe a type of white blood cell.

(301) The hematologist explained the process of blood cell production in the body.

(302) Erythropoietic abnormalities can result in a decreased red blood cell count.

(303) Aplasias can be treated with medications to stimulate blood cell production.

(304) Plasmablasts are a type of white blood cell involved in the immune response.

(305) The histiocyte is derived from a type of white blood cell called a monocyte.

(306) The tcell is a type of white blood cell that helps protect against diseases.

(307) Megaloblast is a type of abnormal red blood cell that is larger than normal.

(308) The protoplasm of a red blood cell contains hemoglobin for oxygen transport.

(309) Segs are a type of white blood cell that play a role in fighting infections.

(310) A capillary tube is often used in hematology to measure red blood cell count.

(311) Myeloid cells are a type of white blood cell involved in the immune response.

(312) Spherocytes can be a result of an abnormality in the red blood cell membrane.

(313) The nucleated bone marrow cells play a crucial role in blood cell production.

(314) The cytologically analyzed blood sample indicated a low red blood cell count.

(315) Erythroblastic transformation is a normal part of red blood cell development.

(316) Disorders in erythropoiesis can result in abnormal red blood cell morphology.

(317) The patient's aplasia was causing a decrease in their white blood cell count.

(318) The haematology professor gave an insightful lecture on blood cell formation.

(319) The haematologist prescribed medication to help regulate my blood cell count.

(320) The cytoarchitecture of the bone marrow is crucial for blood cell production.

(321) The hematologic analysis revealed a high level of red blood cell destruction.

(322) Hemolysins can cause tissue damage in addition to red blood cell destruction.

(323) Macrocytes can be associated with a decrease in overall red blood cell count.

(324) Certain metabolic disorders can result in anemia or low red blood cell count.

(325) B lymphocytes are a type of white blood cell involved in the immune response.

(326) A macrocytic red blood cell is typically larger than a normal red blood cell.

(327) The haematal study revealed normal blood cell counts in the patient's sample.

(328) Ariboflavinosis can lead to anemia due to decreased red blood cell production.

(329) The urinary system is involved in the regulation of red blood cell production.

(330) Blood cell abnormalities can be treated through various medical interventions.

(331) The red marrow is highly active during periods of increased blood cell demand.

(332) A low white blood cell count can make a person more susceptible to infections.

(333) The doctor recommended taking a haematinic to boost red blood cell production.

(334) The surgeon performed a white blood cell transplant behind the affected organ.

(335) The physical test revealed that the individual had a low red blood cell count.

(336) The biconcave shape of a red blood cell allows it to carry oxygen efficiently.

(337) The doctor ordered a hemogram to evaluate the patient's blood cell morphology.

(338) Neutrophiles are the most abundant type of white blood cell in the human body.

(339) Hemopoietic cytokines play a crucial role in regulating blood cell production.

(340) The patient's white blood cell count decreased after antineoplastic treatment.

(341) The binding of ankyrin to spectrin helps stabilize the red blood cell membrane.

(342) Plasmacyte is a term used in immunology to describe a type of white blood cell.

(343) Osteologists study bone marrow to understand its role in blood cell production.

(344) The atrophia of the bone marrow led to a decrease in red blood cell production.

(345) A low reticulocyte count may indicate a problem with red blood cell production.

(346) Monocytic cells are a type of white blood cell involved in the immune response.

(347) Mch is an indicator of the average amount of hemoglobin in each red blood cell.

(348) Hematopathy can manifest in various ways, including abnormal blood cell counts.

(349) The hemogram revealed a low red blood cell count in the patient's blood sample.

(350) The doctor reviewed the hemogram to assess the patient's blood cell production.

(351) The patient's white blood cell count was elevated due to the presence of cocci.

(352) Megaloblasts are often associated with a decrease in red blood cell production.

(353) Antiglobulin serum is used to detect the presence of red blood cell antibodies.

(354) The patient's white blood cell count dropped after receiving the cytotoxic drug.

(355) The transfusion was successful in increasing the patient's red blood cell count.

(356) The microphage is a type of white blood cell that engulfs and destroys bacteria.

(357) The cytologically analyzed blood sample indicated a high white blood cell count.

(358) The haematological assessment revealed a high red blood cell distribution width.

(359) The haematological assessment revealed a high red blood cell sedimentation rate.

(360) The patient's red blood cell count increased after starting hydroxyurea therapy.

(361) Agranulocyte is a type of white blood cell that lacks granules in its cytoplasm.

(362) The hemogram showed an elevated white blood cell count, indicating an infection.

(363) Mineral deficiency can result in anemia and decreased red blood cell production.

(364) The patient's white blood cell count dropped after starting melphalan treatment.

(365) Radiation exposure can damage red marrow and decrease red blood cell production.

(366) An increase in white blood cell count in the bloodstream may indicate infection.

(367) Yellow bone marrow is less active in blood cell production than red bone marrow.

(368) Leucopenia is a medical condition characterized by a low white blood cell count.

(369) Leukopenia is a medical condition characterized by a low white blood cell count.

(370) Erythropenia is a medical condition characterized by a low red blood cell count.

(371) Basophils are a type of white blood cell that play a role in allergic reactions.

(372) Acidophils are a type of white blood cell that play a role in the immune system.

(373) The uninucleate red blood cell was able to transport oxygen throughout the body.

(374) Eosinophil is a type of white blood cell that plays a role in the immune system.

(375) The medical researcher discovered a new type of blood cell under the microscope.

(376) Anaemia can be treated with medications that stimulate red blood cell production.

(377) Megaloblast is a term used to describe a specific type of blood cell abnormality.

(378) The presence of macrocytes can indicate a problem with red blood cell production.

(379) Haemocyte is a term used to describe a type of blood cell found in invertebrates.

(380) Hypocellularity is often associated with a decrease in red blood cell production.

(381) Erythropoietin is primarily responsible for regulating red blood cell production.

(382) Mch is often reported alongside other blood cell parameters such as MCV and MCHC.

(383) The biconcave shape of a red blood cell allows it to withstand mechanical stress.

(384) The protoplasm of a white blood cell plays a crucial role in the immune response.

(385) The infectious agent encysts in the bone marrow, affecting blood cell production.

(386) The patient's white blood cell count was low due to the antimetabolite treatment.

(387) Zinc except for its function in red blood cell production is not commonly taught.

(388) The abnormal accumulation of myeloblasts can disrupt normal blood cell production.

(389) The patient's lymphocytopenia was accompanied by other abnormal blood cell counts.

(390) The presence of hemoglobinuric urine suggested a possible red blood cell disorder.

(391) The patient's hematopathy was characterized by abnormal red blood cell morphology.

(392) Although the megaloblast count was high, her red blood cell count remained stable.

(393) The doctor prescribed packed cells to increase the patient's red blood cell count.

(394) The patient's white blood cell count needs to stabilize for immune system support.

(395) Eosinophiles are a type of white blood cell that play a role in the immune system.

(396) The patient's blood work revealed hypocellularity in their white blood cell count.

(397) Eosinophile is a type of white blood cell that plays a role in the immune response.

(398) Megaloblast is a term used to describe an abnormality in red blood cell morphology.

(399) Erythropoietin is a hormone that plays a crucial role in red blood cell production.

(400) The patient's white blood cell count was closely monitored while on mercaptopurine.

(401) Polymorphonuclear cells are the most abundant type of white blood cell in the body.

(402) Leukosis can be managed with regular check-ups and monitoring of blood cell counts.

(403) The neoplastic changes in her bone marrow were affecting her blood cell production.

(404) The diameter of a human red blood cell is typically one-thousandth of a millimeter.

(405) Megaloblasts are a result of impaired DNA replication in red blood cell precursors.

(406) The patient's white blood cell count needed to stabilise for immune system support.

(407) The hemacytometer is commonly used in medical laboratories for blood cell analysis.

(408) Agranulocytic patients often require frequent monitoring of their blood cell levels.

(409) Dyscrasias are a group of disorders characterized by abnormal blood cell production.

(410) Cytopenia can lead to anemia if the red blood cell count is significantly decreased.

(411) The hematic profile revealed an abnormality in the patient's white blood cell count.

(412) The patient's white blood cell count decreased after starting hydroxyurea treatment.

(413) Elevated haematoidin levels can be a result of excessive red blood cell destruction.

(414) Cytotoxic T cells are a type of white blood cell involved in cell-mediated immunity.

(415) Eosinophiles are a type of white blood cell that play a role in the immune response.

(416) The patient's white blood cell count improved after starting chlorambucil treatment.

(417) Tcells are a type of white blood cell that play a crucial role in the immune system.

(418) Certain diseases can affect haemopoiesis, leading to abnormal blood cell production.

(419) The daughter cells of a red blood cell division lack a nucleus and other organelles.

(420) The multinucleate cells in the bone marrow are responsible for blood cell production.

(421) Treatment for leucopenia may involve medication to boost white blood cell production.

(422) Hematin is broken down into bilirubin during the process of red blood cell recycling.

(423) A phagocyte is a type of white blood cell that engulfs and destroys harmful bacteria.

(424) Hemopoiesis involves the differentiation of stem cells into various blood cell types.

(425) The haematal study revealed abnormal white blood cell counts in the patient's sample.

(426) B cells are a type of white blood cell that play a crucial role in the immune system.

(427) A decrease in white blood cell count can make a person more susceptible to infections.

(428) The multinucleated cells in the bone marrow are responsible for blood cell production.

(429) The patient's appendicitides were causing a fever and elevated white blood cell count.

(430) Hemopoiesis is a continuous process that replenishes the body's blood cell population.

(431) Basophils are a type of white blood cell, and they are involved in allergic reactions.

(432) Ifosfamide is known to cause myelosuppression, leading to decreased blood cell counts.

(433) The doctor ordered a hemogram to assess the patient's blood cell counts after surgery.

(434) Granulocytic infiltration in the bone marrow can disrupt normal blood cell production.

(435) Monocyte is a type of white blood cell that plays a crucial role in the immune system.

(436) Adipous cells can be found in the bone marrow and contribute to blood cell production.

(437) Antianemia treatments may require regular blood tests to monitor red blood cell count.

(438) The haematal study revealed a decrease in red blood cell size in the patient's sample.

(439) The haematal report showed an increase in red blood cell count in the patient's blood.

(440) Patients receiving melphalan may experience a decrease in their white blood cell count.

(441) Yellow bone marrow is less active in blood cell production compared to red bone marrow.

(442) The patient's leukemoid reaction was accompanied by an elevated white blood cell count.

(443) The reticulocyte production index is a measure of red blood cell production efficiency.

(444) The patient's white blood cell count flatlined, suggesting a compromised immune system.

(445) Megaloblasts can be a result of a genetic mutation affecting red blood cell production.

(446) The biconcave shape of a red blood cell allows it to maintain its shape in circulation.

(447) The patient received a whole blood transfusion to replenish their red blood cell count.

(448) Myelocyte is a type of white blood cell that plays a crucial role in the immune system.

(449) Hematogenesis is the process of blood cell formation, and it occurs in the bone marrow.

(450) Leucocyte is a type of white blood cell that plays a crucial role in the immune system.

(451) Leukocyte is a type of white blood cell that plays a crucial role in the immune system.

(452) Treatment for aplastic anemia aims to improve blood cell production and manage symptoms.

(453) Haematogenic stem cells have the ability to differentiate into various blood cell types.

(454) Pancytopenia is a medical condition characterized by low levels of all blood cell types.

(455) Hematogenesis is a continuous process that replenishes the body's blood cell population.

(456) The presence of reticulocytes in the blood suggests increased red blood cell production.

(457) The presence of erythroblasts in the bone marrow indicates active blood cell production.

(458) Hematopoiesis is a continuous process that replenishes the body's blood cell population.

(459) The biconcave shape of a red blood cell allows it to withstand osmotic pressure changes.

(460) The red bone marrow is stimulated by certain hormones to increase blood cell production.

(461) Neutrophil is a type of white blood cell that plays a crucial role in the immune system.

(462) Mast cells are a type of white blood cell that play a crucial role in the immune system.

(463) Mastocytes are a type of white blood cell that play a crucial role in the immune system.

(464) The microphage is a type of white blood cell that engulfs and destroys harmful bacteria.

(465) The kidneys secrete hormones that regulate blood pressure and red blood cell production.

(466) The presence of reticulocytes in the blood indicates increased red blood cell production.

(467) The patient's leucopenia required regular blood tests to monitor white blood cell levels.

(468) The process of hematogenesis is tightly regulated to ensure proper blood cell production.

(469) Hematogenesis is influenced by genetic factors that determine blood cell characteristics.

(470) The patient experienced a decrease in their white blood cell count while on chlorambucil.

(471) Athletes often have higher haematocrit levels due to increased red blood cell production.

(472) Microphages are a type of white blood cell that play a crucial role in the immune system.

(473) Erythropenia can result from bone marrow disorders that affect red blood cell production.

(474) The packed cell volume was higher in athletes due to increased red blood cell production.

(475) Haematopoiesis is a continuous process that replenishes the body's blood cell population.

(476) The hematics lecture covered topics such as blood cell formation and clotting mechanisms.

(477) The doctors successfully completed a red blood cell transplant behind the damaged tissue.

(478) The body requires potassium to break down and utilize iron for red blood cell production.

(479) Macrophages are a type of white blood cell that play a crucial role in the immune system.

(480) Neutrophile is a type of white blood cell that plays a crucial role in the immune system.

(481) The biconcave shape of a red blood cell allows it to flow smoothly through blood vessels.

(482) Antianemia treatments may take several weeks to show improvement in red blood cell count.

(483) The patient's white blood cell count improved after taking antiinfectives for a few days.

(484) Histiocytes are a type of white blood cell that play a crucial role in the immune system.

(485) The microphage is a type of white blood cell that engulfs and destroys harmful pathogens.

(486) The doctor ordered a venous blood count to assess the patient's overall blood cell levels.

(487) The biconcavity of a red blood cell allows for flexibility and efficient oxygen transport.

(488) The biconcave shape of a red blood cell allows it to squeeze through narrow blood vessels.

(489) Hypersplenism can cause a decrease in white blood cell count, impairing the immune system.

(490) The hemogram showed a normal white blood cell count, ruling out any underlying infections.

(491) Eosinophiles are a type of white blood cell that play a crucial role in the immune system.

(492) The size of a macrocyte can vary, but it is generally larger than a normal red blood cell.

(493) The body's homeostatic response to an infection is to increase white blood cell production.

(494) The patient's pancytopenia required regular blood tests to monitor their blood cell counts.

(495) The doctor prescribed medication to help increase the white blood cell count in leukopenia.

(496) Erythroblastic islands provide a supportive microenvironment for red blood cell production.

(497) Leucocytosis is a medical condition characterized by an increase in white blood cell count.

(498) Individuals with anemia should zone in on potassium to help with red blood cell production.

(499) Leukopoietic processes are tightly regulated to maintain a balanced white blood cell count.

(500) The patient's hypoplasia of the bone marrow caused a decrease in red blood cell production.

(501) The doctor requested a hemogram to monitor the patient's blood cell recovery after surgery.

(502) The biconcave shape of a red blood cell allows it to maximize its oxygen-carrying capacity.

(503) The HCT reading showed that the patient's red blood cell count was within the normal range.

(504) T lymphocytes are a type of white blood cell that play a crucial role in the immune system.

(505) The scientist observed a white blood cell against a microscope slide for research purposes.

(506) Erythroblastic precursors are the earliest identifiable cells in the red blood cell lineage.

(507) Erythroblastic dysplasia is a disorder characterized by abnormal red blood cell development.

(508) The mgs of iron in this spinach provide an important nutrient for red blood cell production.

(509) Erythroleukemia may require frequent blood transfusions to manage low red blood cell counts.

(510) The treatment for blood dyscrasia may involve medications to regulate blood cell production.

(511) Erythroblast undergoes several stages of maturation before becoming a mature red blood cell.

(512) Ifosfamide can cause a decrease in white blood cell count, increasing the risk of infection.

(513) Megaloblasts can be a topic covered in a medical school lecture on blood cell abnormalities.

(514) The biconcave shape of a red blood cell allows it to deform and squeeze through capillaries.

(515) The doctor requested a hemogram to monitor the patient's blood cell levels during treatment.

(516) The hemogram revealed a normal red blood cell distribution width in the patient's bloodwork.

(517) The doctor requested a hemogram to monitor the patient's blood cell levels during pregnancy.

(518) Haemopoiesis begins with the differentiation of stem cells into various blood cell lineages.

(519) Aplastic anemia may require ongoing blood transfusions to maintain healthy blood cell levels.

(520) The patient's psychiatrist closely monitored their white blood cell count while on clozapine.

(521) The laboratory technician performed a hemogram to assess the patient's blood cell morphology.

(522) The hemogram showed a normal red blood cell distribution width, ruling out any abnormalities.

(523) The patient's blood tests showed a decrease in red blood cell count after starting melphalan.

(524) The hemogram indicated a normal red blood cell distribution width in the patient's bloodwork.

(525) The normal value for white blood cell count is between 4,500 and 11,000 cells per microliter.

(526) Monocytic cells are a type of white blood cell that play a crucial role in the immune system.

(527) The patient was diagnosed with cytopenia, a condition characterized by low blood cell counts.

(528) Granulocytes, which are a type of white blood cell, play a crucial role in the immune system.

(529) The use of cyclophosphamide may require regular monitoring of the patient's blood cell counts.

(530) The use of doxorubicin may cause a temporary decrease in the patient's white blood cell count.

(531) The leukemogenic transformation can result in the suppression of normal blood cell production.

(532) The presence of hematoidin in the blood can be a sign of excessive red blood cell destruction.

(533) The red bone marrow is stimulated by certain growth factors to increase blood cell production.

(534) The normal value for red blood cell count is between 4.5 and 5.5 million cells per microliter.

(535) The patient's white blood cell count dropped significantly after receiving the cytotoxic drug.

(536) Patients taking clozapine require regular blood tests to monitor their white blood cell count.

(537) Treatment for cyclic neutropenia may involve medications to boost white blood cell production.

(538) Pancytopenia is a medical condition characterized by a decrease in all three blood cell types.

(539) A diagnosis of idiopathic aplastic anemia means the cause of low blood cell counts is unknown.

(540) The nurse is transfusing a patient with a blood product to increase their red blood cell count.

(541) Agranulocytosis can be diagnosed through a blood test that measures the white blood cell count.

(542) The hematologist recommended a transfusion to replenish the patient's low red blood cell count.

(543) The hematologist recommended a lymph node biopsy to investigate abnormal blood cell production.

(544) The doctor requested a hemogram to monitor the patient's blood cell levels during chemotherapy.

(545) The spinal tap results showed elevated white blood cell count, suggesting an ongoing infection.

(546) After receiving the cytotoxic drug, the patient's white blood cell count dropped significantly.

(547) Although the megaloblasts were present, her white blood cell count was within the normal range.

(548) The doctor requested a hemogram to monitor the patient's blood cell counts during chemotherapy.

(549) The hemogram revealed a normal red blood cell sedimentation rate in the patient's blood sample.

(550) The doctor monitored the patient's white blood cell count to track the progress of bacillemias.

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