t/data/recs.txt

FN ISI Export Format
VR 1.0
PT J
AU Knobel, R
   Holditch-Davis, D
AF Knobel, Robin
   Holditch-Davis, Diane
TI Thermoregulation and heat loss prevention after birth and during
   neonatal intensive-care unit stabilization of extremely low-birthweight
   infants
SO JOGNN-JOURNAL OF OBSTETRIC GYNECOLOGIC AND NEONATAL NURSING
LA English
DT Article
DE delivery room resuscitation; ELBW infants; hypothermia; neonatal
   thermoregulation
ID PREMATURE-INFANTS; MORTALITY; ASSOCIATION; SURVIVAL; DELIVERY; TRIAL;
   LIFE
AB Extremely low-birthweight infants have inefficient thermoregulation due
   to immaturity and may exhibit cold body temperatures after birth and
   during their first 12 hours of life. Hypothermia in these infants can
   lead to increased morbidity and mortality. Anecdotal notes made during
   our recent study revealed extremely low-birthweight infants'
   temperatures decreased with caregiver procedures such as umbilical line
   insertion, intubations, obtaining chest x-rays, manipulating
   intravenous lines, repositioning, suctioning, and taking vital signs
   during the first 12 hours of life. Therefore, nursing interventions
   should be undertaken to prevent heat loss during these caregiver
   procedures. Nurses can improve the thermal environment for extremely
   low-birthweight infants by prewarming the delivery room and placing the
   infant in a plastic bag up to the neck during delivery room
   stabilization to prevent heat loss.
C1 Univ N Carolina, Sch Nursing, Chapel Hill, NC USA.
   Duke Univ, Sch Nursing, Durham, NC USA.
RP Knobel, R, 408 Long Point Rd, Chocowinity, NC 27817 USA.
EM rbknobel@earthlink.net
CR *AM AC PED AM HEAR, 2005, SUMM MAJOR CHANG GUI
   *AM AC PED COLL OB, 1988, GID PER CAR
   ANDERSON P, 1998, FETAL NEONATAL PHYSL, V1, P837
   ASKIN DF, 2002, JOGNN, V31, P318
   BARRETT E, 2003, MED PHYSL CELLULAR M, P1035
   CLOHERTY J, 2003, MANUAL NEONATAL CARE
   CRAMER K, 2005, J PERINATOLOGY, V25, P763
   DAY RL, 1964, PEDIATRICS, V34, P171
   DESHPANDE SA, 1997, ARCH DIS CHILD, V76, F15
   GUYTON A, 2006, TXB MED PHYSL
   HAMMARLUND K, 1979, ACTA PAEDIATR SCAND, V68, P795
   HATAI S, 1902, ANAT ANZEIGER, V21, P369
   HAZAN J, 1991, AM J OBSTET GYNECOL, V164, P111
   HORNS K, 2002, ADV NEONATAL CARE, V2, P149
   HOUSTEK J, 1993, J CLIN ENDOCR METAB, V77, P382
   HULL D, 1977, SCI FDN OBSTET GYNAE, P540
   JONES E, 2003, MED PHYSL CELLULAR M, P1190
   KNOBEL R, 2006, THESIS U N CAROLINA, P1
   KNOBEL RB, 2005, J PERINATOL, V25, P304
   KNOBEL RB, 2005, J PERINATOL, V25, P514
   LOUGHEAD MK, 1997, PEDIAT NURS, V23, P11
   LYON AJ, 1997, ARCH DIS CHILD, V76, F47
   MALIN SW, 1987, PEDIATRICS, V79, P47
   MATHEW R, 1998, FETAL NEONATAL PHYSL, V1, P924
   MATHEWS TJ, 2006, NATL VITAL STAT REP, V54, P1
   NADEL E, 2003, MED PHYSL, P1231
   NECHAD M, 1986, BROWN ADIPOSE TISSUE, P1
   RICHARDOSN DK, 2001, J PEDIATR, V138, P92
   SAUER P, 1995, THERMOREGULATION SIC, P9
   SEDIN G, 1995, THERMOREGULATION SIC, P21
   SERI I, 1998, FETAL NEONATAL PHYSL, V2, P1726
   SILVERMAN WA, 1958, PEDIATRICS, V22, P876
   SINCLAIR JC, 1992, EFFECTIVE CARE NEWBO, P40
   THOMAS KA, 2003, J PERINATOL, V23, P640
   VOET D, 2002, FUNDAMENTALS BIOCH, P492
   VOHRA S, 1999, J PEDIATR, V134, P547
   VOHRA S, 2004, J PEDIATR, V145, P750
   WIDMAIER J, 2005, VANDERS HUMAN PHYSL
NR 38
TC 0
PU BLACKWELL PUBLISHING
PI OXFORD
PA 9600 GARSINGTON RD, OXFORD OX4 2DQ, OXON, ENGLAND
SN 0884-2175
J9 JOGNN
JI JOGNN
PD MAY-JUN
PY 2007
VL 36
IS 3
BP 280
EP 287
PG 8
SC Nursing; Obstetrics & Gynecology
GA 171YU
UT ISI:000246772100011
ER

PT J
AU Sandberg, KL
   Poole, SD
   Hamdan, A
   Minton, PA
   Sundell, HW
AF Sandberg, Kenneth L.
   Poole, Stanley D.
   Hamdan, Ashraf
   Minton, Patricia A.
   Sundell, Hakan W.
TI Prenatal nicotine exposure transiently alters the lung mechanical
   response to hypoxia in young lambs
SO RESPIRATORY PHYSIOLOGY & NEUROBIOLOGY
LA English
DT Article
DE respiratory physiology; respiratory function tests; nicotine; prenatal
   exposure; tobacco smoke pollution; hypoxia; sheep
ID INFANT-DEATH-SYNDROME; VENTILATORY RESPONSES; CARDIORESPIRATORY
   RESPONSE; PULMONARY-FUNCTION; CIGARETTE-SMOKING; MATERNAL SMOKING;
   GENE-EXPRESSION; NEWBORN RAT; SURFACTANT; COTININE
AB To test the hypothesis that fetal nicotine exposure alters the lung
   mechanical response to hypoxia (10% 02) 10 lambs were exposed during
   the last fetal trimester to a low dose nicotine (LN) and 10 to a
   moderate dose (MN) (maternal dose 0.5 and 1.5 mg/(kg day) free base,
   respectively). There were 10 controls (C). At 12 days, minute
   ventilation increased significantly less in NIN compared with LN but
   not with C. In contrast to C and LN, MN did not show anticipated
   increases in dynamic compliance, specific compliance and FRC or
   decrease in lung resistance but had signs of airway hyperreactivity
   during hypoxia. Nicotine exposure did not alter the cardiovascular
   response. These adverse effects decreased with advancing age. In
   summary, prenatal nicotine exposure alters the lung mechanical response
   to hypoxia. We speculate that prenatal nicotine-induced alterations of
   lung mechanics during hypoxia may contribute to an increased
   vulnerability to hypoxic stress during infancy. (C) 2006 Elsevier B.V.
   All rights reserved.
C1 Vanderbilt Univ, Sch Med, Dept Pediat, Nashville, TN 37232 USA.
   Gothenburg Univ, Dept Women & Child Hlth, SE-41685 Gothenburg, Sweden.
RP Sundell, HW, Vanderbilt Univ, Sch Med, Dept Pediat, B-1220,MCN,
   Nashville, TN 37232 USA.
EM hakan.sundell@vanderbilt.edu
CR ALTMAN DG, 1991, PRACTICAL STAT MED R, P431
   BAMFORD OS, 1996, RESP PHYSIOL, V106, P1
   BAMFORD OS, 1999, RESP PHYSIOL, V117, P29
   BONORA M, 1997, J APPL PHYSIOL, V83, P700
   BONORA M, 1999, J APPL PHYSIOL, V87, P15
   CHEN CM, 2005, PEDIATR PULM, V39, P97
   COLLINS MH, 1985, PEDIATR RES, V19, P408
   CRAPO RO, 2000, AM J RESP CRIT CARE, V161, P309
   DENJEAN A, 1991, RESP PHYSIOL, V83, P201
   EDEN GJ, 1987, J PHYSIOL-LONDON, V392, P11
   EFRON B, 1971, BIOMETRIKA, V58, P403
   ELLIOT J, 1998, AM J RESP CRIT CARE, V158, P802
   ELLIOT J, 2001, AM J RESP CRIT CARE, V163, P140
   FILIANO JJ, 1994, BIOL NEONATE, V65, P194
   GAUDA EB, 2001, J APPL PHYSIOL, V91, P2157
   GREEN M, 1966, J PHYSIOL-LONDON, V186, P363
   HAFSTROM A, 2005, RESP PHYSIOL NEUROBI, V149, P325
   HAFSTROM O, 2002, AM J RESP CRIT CARE, V166, P1544
   HAFSTROM O, 2002, AM J RESP CRIT CARE, V166, P92
   HARPER RM, 2000, RESP PHYSIOL, V119, P123
   HILL P, 1983, J CHRON DIS, V36, P439
   HJALMARSON O, 1974, ACTA PAEDITA SCAND S, P5
   ISCOE S, 1995, J APPL PHYSIOL, V78, P117
   JACOB P, 1981, J CHROMATOGR, V222, P61
   JACOB P, 1991, BIOL MASS SPECTROM, V20, P247
   JOYCE BJ, 2001, PEDIATR RES, V50, P641
   KINNEY HC, 1993, NEUROSCIENCE, V55, P1127
   LEWIS KW, 1995, J PEDIATR, V127, P691
   MARITZ GS, 1993, CELL BIOL INT, V17, P1085
   MEAD J, 1955, J CLIN INVEST, V34, P1005
   MILERAD J, 1993, ACTA PAEDIATR, V82, P70
   MITCHELL EA, 1999, SMOKING SUDDEN INFAN
   NADEL JA, 1962, J PHYSIOL-LONDON, V163, P13
   NAVARRO HA, 1989, BRAIN RES BULL, V23, P187
   OTIS AB, 1956, J APPL PHYSIOL, V8, P427
   OYARZUN MJ, 1977, J APPL PHYSIOL, V43, P39
   POOLE KA, 2000, AM J RESP CRIT CARE, V162, P801
   POWELL FL, 1998, RESP PHYSIOL, V112, P123
   PROSKOCIL BJ, 2005, AM J RESP CRIT CARE, V171, P1032
   ROGNUM TO, 1988, PEDIATRICS, V82, P615
   ROY TS, 1998, J PHARMACOL EXP THER, V287, P1136
   SANDBERG K, 1987, ACTA PAEDIATR SCAND, V76, P30
   SANDBERG K, 1991, PEDIATR RES, V30, P181
   SANDBERG K, 2004, PEDIATR RES, V56, P432
   SCHUEN JN, 1997, RESP PHYSIOL, V109, P231
   SEKHON HS, 1999, J CLIN INVEST, V103, P637
   SEKHON HS, 2001, AM J RESP CRIT CARE, V164, P989
   SEKHON HS, 2002, AM J RESP CELL MOL, V26, P31
   SJOQVIST BA, 1986, MED BIOL ENG COMPUT, V24, P83
   SLADEK M, 1993, PEDIATR RES, V34, P821
   SLOTKIN TA, 1997, TERATOLOGY, V55, P177
   SOVIK S, 1999, EARLY HUM DEV, V56, P217
   STEELE R, 1966, CAN MED ASSOC J, V94, P1165
   STJOHN WM, 1999, NEUROSCI LETT, V267, P206
   UEDA Y, 1999, J PEDIATR 1, V135, P226
NR 55
TC 0
PU ELSEVIER SCIENCE BV
PI AMSTERDAM
PA PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS
SN 1569-9048
J9 RESPIR PHYSIOL NEUROBIOL
JI Respir. Physiol. Neuro.
PD JUN 15
PY 2007
VL 156
IS 3
BP 283
EP 292
PG 10
SC Physiology; Respiratory System
GA 161UH
UT ISI:000246041200006
ER

EF
1	dpavlin	898	FN ISI Export Format
2			VR 1.0
3			PT J
4			AU Knobel, R
5			Holditch-Davis, D
6			AF Knobel, Robin
7			Holditch-Davis, Diane
8			TI Thermoregulation and heat loss prevention after birth and during
9			neonatal intensive-care unit stabilization of extremely low-birthweight
10			infants
11			SO JOGNN-JOURNAL OF OBSTETRIC GYNECOLOGIC AND NEONATAL NURSING
12			LA English
13			DT Article
14			DE delivery room resuscitation; ELBW infants; hypothermia; neonatal
15			thermoregulation
16			ID PREMATURE-INFANTS; MORTALITY; ASSOCIATION; SURVIVAL; DELIVERY; TRIAL;
17			LIFE
18			AB Extremely low-birthweight infants have inefficient thermoregulation due
19			to immaturity and may exhibit cold body temperatures after birth and
20			during their first 12 hours of life. Hypothermia in these infants can
21			lead to increased morbidity and mortality. Anecdotal notes made during
22			our recent study revealed extremely low-birthweight infants'
23			temperatures decreased with caregiver procedures such as umbilical line
24			insertion, intubations, obtaining chest x-rays, manipulating
25			intravenous lines, repositioning, suctioning, and taking vital signs
26			during the first 12 hours of life. Therefore, nursing interventions
27			should be undertaken to prevent heat loss during these caregiver
28			procedures. Nurses can improve the thermal environment for extremely
29			low-birthweight infants by prewarming the delivery room and placing the
30			infant in a plastic bag up to the neck during delivery room
31			stabilization to prevent heat loss.
32			C1 Univ N Carolina, Sch Nursing, Chapel Hill, NC USA.
33			Duke Univ, Sch Nursing, Durham, NC USA.
34			RP Knobel, R, 408 Long Point Rd, Chocowinity, NC 27817 USA.
35			EM rbknobel@earthlink.net
36			CR *AM AC PED AM HEAR, 2005, SUMM MAJOR CHANG GUI
37			*AM AC PED COLL OB, 1988, GID PER CAR
38			ANDERSON P, 1998, FETAL NEONATAL PHYSL, V1, P837
39			ASKIN DF, 2002, JOGNN, V31, P318
40			BARRETT E, 2003, MED PHYSL CELLULAR M, P1035
41			CLOHERTY J, 2003, MANUAL NEONATAL CARE
42			CRAMER K, 2005, J PERINATOLOGY, V25, P763
43			DAY RL, 1964, PEDIATRICS, V34, P171
44			DESHPANDE SA, 1997, ARCH DIS CHILD, V76, F15
45			GUYTON A, 2006, TXB MED PHYSL
46			HAMMARLUND K, 1979, ACTA PAEDIATR SCAND, V68, P795
47			HATAI S, 1902, ANAT ANZEIGER, V21, P369
48			HAZAN J, 1991, AM J OBSTET GYNECOL, V164, P111
49			HORNS K, 2002, ADV NEONATAL CARE, V2, P149
50			HOUSTEK J, 1993, J CLIN ENDOCR METAB, V77, P382
51			HULL D, 1977, SCI FDN OBSTET GYNAE, P540
52			JONES E, 2003, MED PHYSL CELLULAR M, P1190
53			KNOBEL R, 2006, THESIS U N CAROLINA, P1
54			KNOBEL RB, 2005, J PERINATOL, V25, P304
55			KNOBEL RB, 2005, J PERINATOL, V25, P514
56			LOUGHEAD MK, 1997, PEDIAT NURS, V23, P11
57			LYON AJ, 1997, ARCH DIS CHILD, V76, F47
58			MALIN SW, 1987, PEDIATRICS, V79, P47
59			MATHEW R, 1998, FETAL NEONATAL PHYSL, V1, P924
60			MATHEWS TJ, 2006, NATL VITAL STAT REP, V54, P1
61			NADEL E, 2003, MED PHYSL, P1231
62			NECHAD M, 1986, BROWN ADIPOSE TISSUE, P1
63			RICHARDOSN DK, 2001, J PEDIATR, V138, P92
64			SAUER P, 1995, THERMOREGULATION SIC, P9
65			SEDIN G, 1995, THERMOREGULATION SIC, P21
66			SERI I, 1998, FETAL NEONATAL PHYSL, V2, P1726
67			SILVERMAN WA, 1958, PEDIATRICS, V22, P876
68			SINCLAIR JC, 1992, EFFECTIVE CARE NEWBO, P40
69			THOMAS KA, 2003, J PERINATOL, V23, P640
70			VOET D, 2002, FUNDAMENTALS BIOCH, P492
71			VOHRA S, 1999, J PEDIATR, V134, P547
72			VOHRA S, 2004, J PEDIATR, V145, P750
73			WIDMAIER J, 2005, VANDERS HUMAN PHYSL
74			NR 38
75			TC 0
76			PU BLACKWELL PUBLISHING
77			PI OXFORD
78			PA 9600 GARSINGTON RD, OXFORD OX4 2DQ, OXON, ENGLAND
79			SN 0884-2175
80			J9 JOGNN
81			JI JOGNN
82			PD MAY-JUN
83			PY 2007
84			VL 36
85			IS 3
86			BP 280
87			EP 287
88			PG 8
89			SC Nursing; Obstetrics & Gynecology
90			GA 171YU
91			UT ISI:000246772100011
92			ER
93
94			PT J
95			AU Sandberg, KL
96			Poole, SD
97			Hamdan, A
98			Minton, PA
99			Sundell, HW
100			AF Sandberg, Kenneth L.
101			Poole, Stanley D.
102			Hamdan, Ashraf
103			Minton, Patricia A.
104			Sundell, Hakan W.
105			TI Prenatal nicotine exposure transiently alters the lung mechanical
106			response to hypoxia in young lambs
107			SO RESPIRATORY PHYSIOLOGY & NEUROBIOLOGY
108			LA English
109			DT Article
110			DE respiratory physiology; respiratory function tests; nicotine; prenatal
111			exposure; tobacco smoke pollution; hypoxia; sheep
112			ID INFANT-DEATH-SYNDROME; VENTILATORY RESPONSES; CARDIORESPIRATORY
113			RESPONSE; PULMONARY-FUNCTION; CIGARETTE-SMOKING; MATERNAL SMOKING;
114			GENE-EXPRESSION; NEWBORN RAT; SURFACTANT; COTININE
115			AB To test the hypothesis that fetal nicotine exposure alters the lung
116			mechanical response to hypoxia (10% 02) 10 lambs were exposed during
117			the last fetal trimester to a low dose nicotine (LN) and 10 to a
118			moderate dose (MN) (maternal dose 0.5 and 1.5 mg/(kg day) free base,
119			respectively). There were 10 controls (C). At 12 days, minute
120			ventilation increased significantly less in NIN compared with LN but
121			not with C. In contrast to C and LN, MN did not show anticipated
122			increases in dynamic compliance, specific compliance and FRC or
123			decrease in lung resistance but had signs of airway hyperreactivity
124			during hypoxia. Nicotine exposure did not alter the cardiovascular
125			response. These adverse effects decreased with advancing age. In
126			summary, prenatal nicotine exposure alters the lung mechanical response
127			to hypoxia. We speculate that prenatal nicotine-induced alterations of
128			lung mechanics during hypoxia may contribute to an increased
129			vulnerability to hypoxic stress during infancy. (C) 2006 Elsevier B.V.
130			All rights reserved.
131			C1 Vanderbilt Univ, Sch Med, Dept Pediat, Nashville, TN 37232 USA.
132			Gothenburg Univ, Dept Women & Child Hlth, SE-41685 Gothenburg, Sweden.
133			RP Sundell, HW, Vanderbilt Univ, Sch Med, Dept Pediat, B-1220,MCN,
134			Nashville, TN 37232 USA.
135			EM hakan.sundell@vanderbilt.edu
136			CR ALTMAN DG, 1991, PRACTICAL STAT MED R, P431
137			BAMFORD OS, 1996, RESP PHYSIOL, V106, P1
138			BAMFORD OS, 1999, RESP PHYSIOL, V117, P29
139			BONORA M, 1997, J APPL PHYSIOL, V83, P700
140			BONORA M, 1999, J APPL PHYSIOL, V87, P15
141			CHEN CM, 2005, PEDIATR PULM, V39, P97
142			COLLINS MH, 1985, PEDIATR RES, V19, P408
143			CRAPO RO, 2000, AM J RESP CRIT CARE, V161, P309
144			DENJEAN A, 1991, RESP PHYSIOL, V83, P201
145			EDEN GJ, 1987, J PHYSIOL-LONDON, V392, P11
146			EFRON B, 1971, BIOMETRIKA, V58, P403
147			ELLIOT J, 1998, AM J RESP CRIT CARE, V158, P802
148			ELLIOT J, 2001, AM J RESP CRIT CARE, V163, P140
149			FILIANO JJ, 1994, BIOL NEONATE, V65, P194
150			GAUDA EB, 2001, J APPL PHYSIOL, V91, P2157
151			GREEN M, 1966, J PHYSIOL-LONDON, V186, P363
152			HAFSTROM A, 2005, RESP PHYSIOL NEUROBI, V149, P325
153			HAFSTROM O, 2002, AM J RESP CRIT CARE, V166, P1544
154			HAFSTROM O, 2002, AM J RESP CRIT CARE, V166, P92
155			HARPER RM, 2000, RESP PHYSIOL, V119, P123
156			HILL P, 1983, J CHRON DIS, V36, P439
157			HJALMARSON O, 1974, ACTA PAEDITA SCAND S, P5
158			ISCOE S, 1995, J APPL PHYSIOL, V78, P117
159			JACOB P, 1981, J CHROMATOGR, V222, P61
160			JACOB P, 1991, BIOL MASS SPECTROM, V20, P247
161			JOYCE BJ, 2001, PEDIATR RES, V50, P641
162			KINNEY HC, 1993, NEUROSCIENCE, V55, P1127
163			LEWIS KW, 1995, J PEDIATR, V127, P691
164			MARITZ GS, 1993, CELL BIOL INT, V17, P1085
165			MEAD J, 1955, J CLIN INVEST, V34, P1005
166			MILERAD J, 1993, ACTA PAEDIATR, V82, P70
167			MITCHELL EA, 1999, SMOKING SUDDEN INFAN
168			NADEL JA, 1962, J PHYSIOL-LONDON, V163, P13
169			NAVARRO HA, 1989, BRAIN RES BULL, V23, P187
170			OTIS AB, 1956, J APPL PHYSIOL, V8, P427
171			OYARZUN MJ, 1977, J APPL PHYSIOL, V43, P39
172			POOLE KA, 2000, AM J RESP CRIT CARE, V162, P801
173			POWELL FL, 1998, RESP PHYSIOL, V112, P123
174			PROSKOCIL BJ, 2005, AM J RESP CRIT CARE, V171, P1032
175			ROGNUM TO, 1988, PEDIATRICS, V82, P615
176			ROY TS, 1998, J PHARMACOL EXP THER, V287, P1136
177			SANDBERG K, 1987, ACTA PAEDIATR SCAND, V76, P30
178			SANDBERG K, 1991, PEDIATR RES, V30, P181
179			SANDBERG K, 2004, PEDIATR RES, V56, P432
180			SCHUEN JN, 1997, RESP PHYSIOL, V109, P231
181			SEKHON HS, 1999, J CLIN INVEST, V103, P637
182			SEKHON HS, 2001, AM J RESP CRIT CARE, V164, P989
183			SEKHON HS, 2002, AM J RESP CELL MOL, V26, P31
184			SJOQVIST BA, 1986, MED BIOL ENG COMPUT, V24, P83
185			SLADEK M, 1993, PEDIATR RES, V34, P821
186			SLOTKIN TA, 1997, TERATOLOGY, V55, P177
187			SOVIK S, 1999, EARLY HUM DEV, V56, P217
188			STEELE R, 1966, CAN MED ASSOC J, V94, P1165
189			STJOHN WM, 1999, NEUROSCI LETT, V267, P206
190			UEDA Y, 1999, J PEDIATR 1, V135, P226
191			NR 55
192			TC 0
193			PU ELSEVIER SCIENCE BV
194			PI AMSTERDAM
195			PA PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS
196			SN 1569-9048
197			J9 RESPIR PHYSIOL NEUROBIOL
198			JI Respir. Physiol. Neuro.
199			PD JUN 15
200			PY 2007
201			VL 156
202			IS 3
203			BP 283
204			EP 292
205			PG 10
206			SC Physiology; Respiratory System
207			GA 161UH
208			UT ISI:000246041200006
209			ER
210
211			EF