Neuroprotection in Ischemia

Ca2+ toxicity remains the central focus of ischemic brain injury. The mechanism by which toxic Ca2+ loading of cells occurs in the ischemic brain has become less clear as multiple human trials of glutamate antagonists have failed to show effective neuroprotection in stroke. Acidosis is a common feature of ischemia and is assumed to play a critical role in brain injury; however, the mechanism(s) remain ill defined. Here, we show that acidosis activates Ca2+ -permeable acid-sensing ion channels (ASICs), inducing glutamate receptor-independent, Ca2+ -dependent, neuronal injury inhibited by ASIC blockers. Cells lacking endogenous ASICs are resistant to acid injury, while transfection of Ca2+ -permeable ASIC1a establishes sensitivity. In focal ischemia, intracerebroventricular injection of ASIC1a blockers or knockout of the ASIC1a gene protects the brain from ischemic injury and does so more potently than glutamate antagonism. Thus, acidosis injures the brain via membrane receptor-based mechanisms with resultant toxicity of [Ca2+]i, disclosing new potential therapeutic targets for stroke.

Brain lactic acidosis and ischemic cell damage: 1. Biochemistry and neurophysiology

This study explores the influence of severe lactic acidosis in the ischemic rat brain on postischemic recovery of the tissue energy state and neurophysiological parameters. Severe incomplete brain ischemia (cerebral blood flow below 5% of normal) was induced by bilateral carotid artery clamping combined with hypovolemic hypotension. We varied the production of lactate in the tissue by manipulating the blood glucose concentrations. A 30-min period of incomplete ischemia induced in food-deprived animals caused lactate to accumulate to 15-16 mumol g-1 in cortical tissue. Upon recirculation these animals showed: (1) a considerable recovery of the cortical energy state as evaluated from the tissue concentrations of phosphocreatine, ATP, ADP, and AMP; and (2) return of spontaneous electrocortical activity as well as of somatosensory evoked response (SER). In contrast, administration of glucose to food-deprived animals prior to ischemia caused an increase in tissue lactate concentration to about 35 mumol g-1. These animals did not recover energy balance in the tissue and neurophysiological functions did not return. In other experiments the production of lactate during 30 min of complete compression ischemia was increased from about 12 mumol g-1 (normoglycemic animals) to 20-30 mumol g-1 by preischemic hyperglycemia and, in separate animals, combined hypercapnia. The recovery of the cortical energy state upon recirculation was significantly poorer in hyperglycemic animals. It is concluded that a high degree of tissue lactic acidosis during brain ischemia impairs postischemic recovery and that different degrees of tissue lactic acidosis may explain why severe incomplete ischemia, in certain experimental models, is more deleterious than complete brain ischemia.

Subacute Ruminal Acidosis (SARA): a Review

Subacute ruminal acidosis (SARA) is likely to arise when an easily palatable, high-energy diet meets a ruminal environment not adapted to this type of substrate. Increase of short-chained fatty acids (SCFA) will occur. Eventually, this may result in a transient nadir of ruminal pH below 5.5. Two situations are likely to represent the risk of SARA. First, fresh lactating cows are confronted with a diet considerably differing from that in the dry-period. A diet change carried out too rapidly or without proper transition management will put the animals at risk. Secondly, further in lactation, inaccurate calculation of dry-matter-intake (DMI) leading to wrong roughage/concentrate ratio, an inadequate content of structure within the diet or mistakes in preparing of total mixed rations may produce SARA. The consequences of SARA are diverse and complex. Laminitis is regularly connected to SARA and the negative impact of organic acids on the ruminal wall may lead to parakeratosis enabling translocation of pathogens into the bloodstream provoking inflammation and abscessation throughout the ruminant body. Moreover, milk-fat depression (MFD) can be related to SARA. In order to achieve a proper diagnosis, SARA has to be understood as a herd-management problem. A screening of the herd for SARA by means of a rumenocentesis, performed on a sample-group, preferably 12 individuals, may reveal the presence of SARA. The herd screening should include the risk group suspected, preferably. The prevention of SARA applies to the principles of ruminant feeding. Careful transition management from the dry to the lactation period and control of fibre-content and ration quality should be more yielding than the use of buffers or antibiotic drugs.

Synthetic GPI as a candidate anti-toxic vaccine in a model of malaria

The malaria parasite Plasmodium falciparum infects 5-10% of the world's population and kills two million people annually. Fatalities are thought to result in part from pathological reactions initiated by a malarial toxin. Glycosylphosphatidylinositol (GPI) originating from the parasite has the properties predicted of a toxin; however, a requirement for toxins in general and GPI in particular in malarial pathogenesis and fatality remains unproven. As anti-toxic vaccines can be highly effective public health tools, we sought to determine whether anti-GPI vaccination could prevent pathology and fatalities in the Plasmodium berghei/rodent model of severe malaria. The P. falciparum GPI glycan of the sequence NH(2)-CH(2)-CH(2)-PO(4)-(Man alpha 1-2)6Man alpha 1-2Man alpha 1-6Man alpha 1-4GlcNH(2)alpha 1-6myo-inositol-1,2-cyclic-phosphate was chemically synthesized, conjugated to carriers, and used to immunize mice. Recipients were substantially protected against malarial acidosis, pulmonary oedema, cerebral syndrome and fatality. Anti-GPI antibodies neutralized pro-inflammatory activity by P. falciparum in vitro. Thus, we show that GPI is a significant pro-inflammatory endotoxin of parasitic origin, and that several disease parameters in malarious mice are toxin-dependent. GPI may contribute to pathogenesis and fatalities in humans. Synthetic GPI is therefore a prototype carbohydrate anti-toxic vaccine against malaria.

Gadolinium is detectable within the tissue of patients with nephrogenic systemic fibrosis

BACKGROUND

Nephrogenic systemic fibrosis (NSF) is a disease of unknown etiology that affects a subset of patients with renal insufficiency. Recent publications suggested an association between exposure to gadolinium-containing contrast agents and subsequent development of NSF. We sought to detect gadolinium within the skin and soft tissue of patients with NSF who were exposed to gadolinium-based contrast.

METHODS

Paraffin-embedded skin and soft tissue from NSF patients exposed to gadolinium, and from negative controls, was provided by the NSF Registry (New Haven, Conn). The tissue was searched for metals using a field emission scanning electron microscope that was equipped with energy dispersive spectroscopy. The presence of gadolinium and other metals was verified through identification of unique and requisite X-ray emission spectra.

RESULTS

Gadolinium was detected in 4 of 13 tissue specimens from 7 patients with documented NSF who were exposed to gadolinium-based radiographic contrast. No gadolinium was detected in a paraffin-embedded specimen from a negative control. Based upon the known exposure history of patients with detectable gadolinium, a tissue residence time of 4 to 11 months was observed.

LIMITATIONS

As this was a pilot investigation, only a single control specimen and a single histological section from each block of tissue were utilized.

CONCLUSION

In this pilot investigation, gadolinium was detected in the tissue of a number of patients with NSF. Although neither dispositive of a pathophysiologic mechanism, nor proof of causation, the detection of gadolinium within tissue of NSF patients is supportive of an epidemiologic association between exposure to gadolinium-containing contrast material and development of disease.

Abbreviated laparotomy and planned reoperation for critically injured patients

The triad of hypothermia, acidosis, and coagulopathy in critically injured patients is a vicious cycle that, if uninterrupted, is rapidly fatal. During the past 7.5 years, 200 patients were treated with unorthodox techniques to abruptly terminate the laparotomy and break the cycle. One hundred seventy patients (85%) suffered penetrating injuries and 30 (15%) were victims of blunt trauma. The mean Revised Trauma Score, Injury Severity Score, and Trauma Index Severity Score age combination index predicted survival were 5.06%, 33.2%, and 57%, respectively. Resuscitative thoracotomies were performed in 60 (30%) patients. After major sources of hemorrhage were controlled, the following clinical and laboratory mean values were observed: red cell transfusions--22 units, core temperature--32.1 C, and pH--7.09. Techniques to abbreviate the operation included the ligation of enteric injuries in 34 patients, retained vascular clamps in 13, temporary intravascular shunts in four, packing of diffusely bleeding surfaces in 171, and the use of multiple towel clips to close only the skin of the abdominal wall in 178. Patients then were transported to the surgical intensive care unit for vigorous correction of metabolic derangements and coagulopathies. Ninety-eight patients (49%) survived to undergo planned reoperation (mean delay 48.1 hours), and 66 of 98 (67%) survived to leave the hospital. With the exception of intravascular shunts, there were survivors who were treated by each of the unorthodox techniques. Of 102 patients who died before reoperation 68 (67%) did so within 2 hours of the initial procedure. Logistic regression showed that red cell transfusion rate and pH may be helpful in determining when to consider abbreviated laparotomy. The authors conclude that patients with hypothermia, acidosis, and coagulopathy are at high risk for imminent death, and that prompt termination of laparotomy with the use of the above techniques is a rational approach to an apparently hopeless situation.

Brain lactic acidosis and ischemic cell damage: 2. Histopathology

The influence of severe tissue lactic acidosis during incomplete brain ischemia (30 min) on cortex morphology was studied in fasted rats. Production of lactate in the ischemic tissue was varied by preischemic infusions (i.v.) of either a saline or a glucose solution. The brains were fixed by perfusion with glutaraldehyde at 0, 5, or 90 min of recirculation. In saline-infused animals (tissue lactate about 15 mumol g-1), changes observed at 0 and 5 min of recirculation were strikingly discrete: slight condensation of nuclear chromatin, mild to moderate mitochondrial swelling, and only slight astrocyte edema. These changes had virtually disappeared after 90 min recirculation and, at this time, only discrete ribosomal changes were observed. In contrast, glucose-infused rats (tissue lactate about 35 mumol g-1) showed severe changes: marked clumping of nuclear chromatin and cell sap in all cells was already evident at 0 and 5 min recirculation, while mitochondrial swelling was mild to moderate. Although tissue fixation was inadequate at 90 min, the ultrastructural appearance indicated extensive damage. It is concluded that excessive tissue lactic acidosis during brain ischemia exaggerates structural alterations and leads to irreversible cellular damage. A tentative explanation is offered for the paucity (less than 0.2%) of condensed neurons with grossly swollen mitochondria, previously considered a hallmark of ischemic cell injury.

Gadolinium deposition in nephrogenic fibrosing dermopathy

There is growing recognition of the association between the use of gadolinium-containing radiocontrast agents for magnetic resonance imaging and the serious dermal and systemic disease nephrogenic fibrosing dermopathy/nephrogenic systemic fibrosis (NFD/NSF). The pathogenesis of this entity remains unclear; however, our recent observations suggest a likely mechanism for the initial dermal manifestations of this gadolinium toxicity.

Risk factors in the development of intraventricular haemorrhage in the preterm neonate

One hundred and forty-six infants of 34 weeks' gestation or less were repeatedly scanned by means of real-time ultrasound to diagnose the presence of intraventricular haemorrhage (IVH), its severity, and the timing of onset of the condition. We describe a new method for grading the extent of the IVH which does not depend on ventricular size. IVH was clearly present in 52 (36%) of the 146 infants and in 32 (50%) of the 64 infants of 30 weeks' gestation or less. Repeated scans accurately timed the onset of IVH in 41 infants, and 32 (78%) had the first sign of IVH before 72 hours of age. Thirty-two clinical factors were analysed for possible correlation with the development of IVH: outborn compared with inborn, administration of sodium bicarbonate, hypothermia, intermittent positive pressure ventilation, continuous positive airways pressure, hypercapnia, severe acidosis, and respiratory distress syndrome all reached statistical significance. Analysis of variance showed that respiratory distress syndrome was the most important factor, but severe acidosis had some independent action on the development of IVH. Seventeen (81%) of 21 infants with hypercapnia (PCO2 greater than 6 kPa) together with severe acidosis (pH less than 7.1) developed IVH, of which more than half was moderate or severe in degree.

Hypothermia and acidosis worsen coagulopathy in the patient requiring massive transfusion

Massive transfusion may cause abnormalities of electrolytes, clotting factors, pH, and temperature and may occur in a scenario of refractory coagulopathy and irreversible shock. Identification of correctable variables to improve survival is complicated by the interplay of this pathophysiology. Temperature may be an under-appreciated problem in the genesis of coagulopathy. In vitro studies have demonstrated that platelet function and vascular response are critically temperature-dependent. We reviewed the records of 45 trauma patients without head injury or co-morbid medical illness who required massive transfusions. The mean Injury Severity Score was 55 +/- 6, a mean of 22.5 +/- 5 units of blood was transfused, and mortality was 33%. Nonsurvivors were more likely to have had penetrating injury (88% versus 55%), received more transfusions (26.5 +/- 9 versus 18.6 +/- 1, p less than 0.05), had lower pH (pH 7.04 +/- 0.06 versus 7.18 +/- 0.02, p less than 0.05), had lower core temperature (31 +/- 1 degree C versus 34 +/- 1 degree C, p less than 0.01), and had a higher incidence of clinical coagulopathy (73% versus 23%). Severe hypothermia (temperature less than 34 degrees C) occurred in 80% of the nonsurvivors and in 36% of survivors. Patients who were hypothermic and acidotic developed clinically significant bleeding despite adequate blood, plasma, and platelet replacement. Avoidance or correction of hypothermia may be critical in preventing or correcting coagulopathy in the patient receiving massive transfusion.

Has mortality from acute renal failure decreased? A systematic review of the literature

PURPOSE

To determine mortality rates in patients with acute renal failure during the past decades.

METHODS

We performed a MEDLINE search using the keywords "acute renal failure" crossed with "outcome," "mortality," "ICU," "critically ill" or "prognosis" in the period from January 1970 to December 2004. Abstracts and full articles were eligible if mortality rates were reported. We also reviewed the bibliographies of available studies for further potentially eligible studies. The dates of the observation period for each study and not the publication dates were considered for the analysis, so the earliest data were from 1956.

RESULTS

Of 85 articles fulfilling the criteria, 5 were excluded because of duplicate publications using the same database, so that 80 were included in our review with a total of 15897 patients. Mortality rates in most studies exceeded 30%, and there was no consistent change over time.

CONCLUSION

Despite technical progress in the management of acute renal failure over the last 50 years, mortality rates seem to have remained unchanged at around 50%.

Causes and effects of heterogeneous perfusion in tumors

A characteristic of solid tumors is their heterogeneous distribution of blood flow, with significant hypoxia and acidity in low-flow regions. We review effects of heterogeneous tumor perfusion are reviewed and propose a conceptual model for its cause. Hypoxic-acidic regions are resistant to chemo- and radiotherapy and may stimulate progression to a more metastatic phenotype. In normal tissues, hypoxia and acidity induce angiogenesis, which is expected to improve perfusion. However, aggressive tumors can have high local microvessel density simultaneously with significant regions of hypoxia and acidosis. A possible explanation for this apparent contradiction is that the mechanisms regulating growth and adaptation of vascular networks are impaired. According to a recent theory for structural adaptation of vascular networks, four interrelated adaptive responses can work as a self-regulating system to produce a mature and efficient blood distribution system in normal tissues. It is proposed that heterogeneous perfusion in tumors may result from perturbation of this system. Angiogenesis may increase perfusion heterogeneity in tumors by increasing the disparity between parallel low- and high-resistance flow pathways. This conceptual model provides a basis for future rational therapies. For example, it indicates that selective destruction of tumor vasculature may increase perfusion efficiency and improve therapeutic efficacy.

Threshold of metabolic acidosis associated with newborn complications

OBJECTIVE

Our purpose was to determine the threshold of metabolic acidosis at delivery associated with newborn complications.

STUDY DESIGN

This study was a matched case-control study of 174 term newborn infants. Three groups defined by umbilical artery base deficit at birth were 4 to 8 mmol/L, 8 to 12 mmol/L, and 12 to 16 mmol/L. Newborn complications during the 5 days after birth were documented. A composite complication score defined the magnitude of all complications in each neonate.

RESULTS

Moderate and severe newborn encephalopathy and respiratory complications and composite complication scores >3 were increased in the group with an umbilical artery base deficit of 12 to 16 mmol/L. Moderate or severe newborn complications occurred in 10% of newborns in the same group, whereas such complications occur in 40% of neonates with an umbilical artery base deficit >16 mmol/L at birth.

CONCLUSION

The threshold of fetal metabolic acidosis at delivery when moderate or severe newborn complications may occur is in an umbilical artery base deficit of 12 mmol/L. Thereafter, increasing metabolic acidosis is associated with a progression of severity of newborn complications.

Evaluation of signals activating ubiquitin-proteasome proteolysis in a model of muscle wasting

The ubiquitin-proteasome proteolytic system is stimulated in conditions causing muscle atrophy. Signals initiating this response in these conditions are unknown, although glucocorticoids are required but insufficient to stimulate muscle proteolysis in starvation, acidosis, and sepsis. To identify signals that activate this system, we studied acutely diabetic rats that had metabolic acidosis and increased corticosterone production. Protein degradation was increased 52% (P < 0.05), and mRNA levels encoding ubiquitin-proteasome system components, including the ubiquitin-conjugating enzyme E214k, were higher (transcription of the ubiquitin and proteasome subunit C3 genes in muscle was increased by nuclear run-off assay). In diabetic rats, prevention of acidemia by oral NaHCO3 did not eliminate muscle proteolysis. Adrenalectomy blocked accelerated proteolysis and the rise in pathway mRNAs; both responses were restored by administration of a physiological dose of glucocorticoids to adrenalectomized, diabetic rats. Finally, treating diabetic rats with insulin for >/=24 h reversed muscle proteolysis and returned pathway mRNAs to control levels. Thus acidification is not necessary for these responses, but glucocorticoids and a low insulin level in tandem activate the ubiquitin-proteasome proteolytic system.

Independent contributions of hypothermia and acidosis to coagulopathy in swine

BACKGROUND

Clinical coagulopathy occurs frequently in the presence of acidosis and hypothermia. The purpose of this study was to determine the relative contributions of acidosis and hypothermia to coagulopathy, as measured by current standard bedside and clinical laboratory analyses (i.e., bleeding time and prothrombin time). In addition, we investigated possible mechanisms of these effects using a modified prothrombin time test, thromboelastography, and thrombin kinetics analyses. An improved understanding of coagulopathy should facilitate hemorrhage control.

METHODS

Twenty-four pigs were randomly allocated into normal (pH, 7.4; 39 degrees C), acidotic (pH, 7.1; 39 degrees C), hypothermic (pH, 7.4; 32 degrees C), and acidotic and hypothermic (pH, 7.1; 32 degrees C) combined groups. Acidosis was induced by the infusion of 0.2N hydrochloric acid in lactated Ringer's solution. Hypothermia was induced by using a blanket with circulating water at 4 degrees C. Development of a clinical coagulopathy was defined as a significant increase in splenic bleeding time. Measurements were compared before (pre) and 10 minutes after (post) the target condition was achieved.

RESULTS

Acidosis, hypothermia, or both caused the development of coagulopathy, as indicated by 47%, 57%, and 72% increases in splenic bleeding time (p < 0.05, pre vs. post). Plasma fibrinogen concentration was decreased by 18% and 17% in the acidotic and combined groups, respectively, but not in the hypothermic group. Hypothermia caused a delay in the onset of thrombin generation, whereas acidosis primarily caused a decrease in thrombin generation rates. At 4 minutes' quench time, thrombin generation in the acidotic, hypothermic, and combined groups were 47.0%, 12.5%, and 5.7%, respectively, of the value in the control group. There were no changes in serum tumor necrosis factor-alpha and interleukin-6 in any group during the study.

CONCLUSION

Acidosis and hypothermia cause a clinical coagulopathy with different thrombin generation kinetics. These results confirm the need to prevent or correct hypothermia and acidosis and indicate the need for improved techniques to monitor coagulopathy in the trauma population.

Treatment of malnourished CAPD patients with an amino acid based dialysate

Nineteen malnourished chronic peritoneal dialysis patients who were ingesting a low protein intake underwent metabolic balance studies to test whether a dialysate that contained amino acids would improve their protein nutrition. Patients lived in the hospital for 35 days while they ate a constant diet and underwent their usual regimen of continuous ambulatory peritoneal dialysis (CAPD). The first 15 days served as a Baseline Phase. For the last 20 days, the usual dialysate was substituted with a dialysate of essentially the same composition except that it contained 1.1% essential and nonessential amino acids and no glucose. Patients received one or two dialysate exchanges with amino acids each day depending on the amount necessary to bring the individual's dietary protein plus dialysate amino acid intake to 1.1 to 1.3 g/kg body weight/day. During Baseline, patients were in neutral nitrogen balance; net protein anabolism was positive, as determined from 15N-glycine studies. After commencing intraperitoneal amino acid therapy, nitrogen balance became significantly positive, there was a significant increase in net protein anabolism, the fasting morning plasma amino acid pattern became more normal, and serum total protein and transferrin concentrations rose. Patients generally tolerated the treatment well, although some patients developed mild metabolic acidemia. These findings indicate that a dialysate containing amino acids may improve protein malnutrition in CAPD patients ingesting low protein intakes.

Pain due to tissue acidosis: a mechanism for inflammatory and ischemic myalgia?

To study the role of protons in ischemic muscle pain we employed the "submaximal effort tourniquet technique' and, in a second attempt, an intramuscular pressure infusion of acid phosphate buffer. The pH measured in the forearm skin covering the muscles at work during the tourniquet test continuously dropped to a mean value of pH 7.00 +/- 0.26, starting 1 min after the contractions, while the pain increased in direct correlation with the hydrogen ion concentration (r = 0.96). After restoring the blood supply, the intradermal proton concentration decreased more slowly than the muscular pain. The same subjective quality of deep muscular pain was achieved with pressure infusion of acid phosphate buffer (pH 5.2) into the forearm muscles. Constant flow rates evoked constant, apparently non-adapting magnitudes of pain with a log-linear stimulus-response relationship (r = 0.93). Changes in flow rate were followed by changes in pain ratings with a certain phase lag. We conclude that muscular pain induced by infusion of acidic phosphate buffer and pain from ischemic contractions are generated through the same mechanisms based on the algogenic action of protons.

Acidosis and arrhythmias in cardiac muscle

Acidosis is a well recognised consequence of myocardial ischaemia. In this brief article we have reviewed the consequences of acidosis that might be arrhythmogenic. These include early afterdepolarisations and triggered activity, delayed afterdepolarisations, pulsus alternans, and reentry. In each case we have described the evidence that acidosis can provoke such behaviour and then discussed the possible mechanisms and consequences of each behaviour. It seems likely that changes of pH may contribute to arrhythmogenesis during ischaemia by these mechanisms.

Changes in tissue pH and temperature after incision indicate acidosis may contribute to postoperative pain

BACKGROUND

Incisional pain is a common form of acute pain. Previously, the authors studied persistent pain behaviors caused by incisions, using animal models for postoperative pain. In this study, the authors measured tissue pH and hind paw temperature before and after incision to understand factors that may activate and sensitize nociceptors in the incision.

METHODS

Rats underwent a plantar incision, a gastrocnemius muscle incision, or a cutaneous paraspinal incision. For the hind paw incision, pain behaviors were measured. Tissue pH was measured using a pH-sensitive needle electrode in halothane-anesthetized rats. The pH in the incision was compared to a corresponding control site on the contralateral side of the rat or to the sham-operated group.

RESULTS

Plantar tissue pH was 7.16 +/- 0.04 in sham-operated rats. Ten minutes after plantar incision, tissue pH was decreased to 6.91 +/- 0.20 (P < 0.05), and this decrease was sustained through 60 min after incision, when pH was 6.99 +/- 0.06 (P < 0.05). Tissue pH values were 6.95, 6.90, 6.89, and 6.95 (P < 0.05 vs. sham) 4 h and 1, 2, and 4 days after incision, respectively. On postoperative day 7, when plantar pH was same as for the control side (7.13 +/- 0.05), guarding behavior, heat responses, and responses to mechanical stimuli recovered. Outside the incised area in the hind paw, tissue pH was normal. Tissue pH was significantly correlated with all pain behaviors. In the gastrocnemius muscle, tissue pH was 7.14 +/- 0.7 in the sham-operated side. Ten minutes after incision, tissue pH was 6.54 +/- 0.12 (P < 0.05), and muscle pH remained decreased through 60 min after gastrocnemius incision when pH was 6.76 +/- 0.17 (P < 0.05). Tissue pH was also significantly decreased (P < 0.05) on day 1 (6.96 vs. 7.20) and day 4 (7.06 vs. 7.18) after gastrocnemius incision but was not reduced on postoperative day 8 (7.11 vs. 7.15). A paraspinal incision also decreased tissue pH in the hairy skin of the rat compared with the preincision value. Hind paw skin temperature did not change after incision.

CONCLUSION

A decrease in pH occurs immediately after incision and is sustained for at least 4 days. During the period of decreased tissue pH, pain behaviors are evident. When the tissue pH returns to normal, pain behaviors are diminished. The decreased pH is localized at the incision site and not to areas surrounding the incision. Decreased pH likely contributes to nociceptor sensitization and pain related behaviors after incision. The magnitude of the pH change varies among tissues. An increase in hind paw skin temperature does not play a role in these pain-related behaviors.

Carnitine metabolism and function in humans

It is apparent from the foregoing discussion that carnitine plays an essential role in human intermediary metabolism. The question of a dietary requirement for carnitine, particularly for the human infant, is of significant theoretical and practical interest. Aberrant carnitine metabolism resulting from abnormal genetic or acquired conditions may have serious consequences for the affected individual. At present many of the treatment modalities for carnitine deficiency are empirical. Further clarification of the mechanisms by which carnitine depletion is manifest in these conditions is essential for designing treatment programs. Moreover, therapeutic use of carnitine in several human diseases not involving carnitine deficiency per se has been indicated. Before such treatment becomes generally accepted, we must determine precisely the role of this amino acid in the biochemical and physiological events that participate in the pathogenesis of each disease.

Sustained graded pain and hyperalgesia from harmless experimental tissue acidosis in human skin

The present study was performed to decide whether tissue acidosis can induce sustained pain and, by that, possibly contribute to the pain in inflammation or ischaemia. A motorized syringe pump was used to infuse an isotonic phosphate buffer solution (pH 5.2) via sterile filter and cannula into the palmar forearm skin of human subjects (n = 6). This resulted in a localized burning pain sensation (edema and flare response) that was sustained as long as a constant flow was maintained. Flow rates between 1.2 and 12 ml/h were needed to reach individual pain ratings around 20% of a visual analogue scale (VAS). Increasing the flow in multiples of this basic rate led to approximately log-linear increases in individual pain ratings with reasonable congruence of the slopes. Stopping the pump or cooling the skin close to the cannula caused an abrupt pain relief. Prolonged infusion at flow rates producing pain ratings around 20% VAS led to localized changes in mechanical sensitivity: The touch threshold increased--as it did with control infusion of phosphate buffer at pH 7.4. However, the punctate force producing a threshold sensation of pain dropped from 64 to 5.7 mN (median values); the final level was usually reached within 15 min. In conclusion, experimental tissue acidosis provides a controllable and harmless method to produce sustained, graded and spatially restricted pain and hyperalgesia to mechanical stimulation.